{"meta":{"query_hash":"88c42bd0c9f6","filters":{"venue":"Advanced Materials"},"cohort_total":862,"direct_labels_cover":0,"predictions_cover":862,"exported":862,"export_cap":100000,"truncated":false,"label_status":"direct model label, unvalidated","prediction_status":"machine_predicted_unvalidated (Codex and Gemma teacher distillation)","score_status":"score_only:v0-immature-baseline","snapshot":{"source":"OpenAlex, pinned release, all 482 partitions","release":"2026-06-24","frame_built":"2026-07-12"},"permalink":"https://metacan.xera.ac/q/88c42bd0c9f6","api":"https://metacan.xera.ac/api/v1/cohort?venue=Advanced+Materials"},"results":[{"id":"W1602021619","doi":"10.1002/adma.201002973","title":"A Low‐Bandgap Diketopyrrolopyrrole‐Benzothiadiazole‐Based Copolymer for High‐Mobility Ambipolar Organic Thin‐Film Transistors","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Ambipolar diffusion; Materials science; Band gap; Thin-film transistor; Electron mobility; Transistor; Optoelectronics; Organic semiconductor; Semiconductor; Acceptor; Copolymer; Charge carrier; Polymer; Organic electronics; Nanotechnology; Electron; Electrical engineering; Condensed matter physics; Voltage; Physics; Composite material","score_opus":0.0036657886086908804,"score_gpt":0.20058510453979286,"score_spread":0.19691931593110198,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1602021619","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99018604,0.00033803924,0.0042549274,0.0000973928,0.0030875066,0.0008466366,0.00048984424,0.0006044033,0.0000952375],"genre_scores_gemma":[0.9971197,0.00006492938,0.001694211,0.00028637043,0.00025232264,0.0001926541,0.00012898401,0.00017714179,0.00008364008],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99801654,0.000033715325,0.0005425634,0.000439936,0.00023822069,0.0007290482],"domain_scores_gemma":[0.99880064,0.00013930253,0.000094644165,0.0006652196,0.00012339836,0.00017678666],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004722309,0.00041952214,0.0005593095,0.000085674474,0.00016085278,0.00007928689,0.00034268262,0.00031469922,0.001496714],"category_scores_gemma":[0.00009962764,0.00042405745,0.000112860136,0.00018842077,0.00007846932,0.00021465581,0.000020715077,0.0003207616,0.000050219125],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012501322,0.00007401859,0.000009756323,0.00024734865,0.00004137494,0.0000018404397,0.00008928039,0.000718251,0.99749446,0.00068467454,0.00030836565,0.00020560033],"study_design_scores_gemma":[0.0013627432,0.00016002706,0.00012696227,0.000022476668,0.000060140534,0.0000032562602,0.0000095318765,0.000627577,0.98523754,0.0021749395,0.009723616,0.0004912047],"about_ca_topic_score_codex":0.000052489417,"about_ca_topic_score_gemma":0.00039458042,"teacher_disagreement_score":0.012256951,"about_ca_system_score_codex":0.00012936846,"about_ca_system_score_gemma":0.00013130937,"threshold_uncertainty_score":0.9998211},"labels":[],"label_agreement":null},{"id":"W1866891130","doi":"10.1002/adma.201503125","title":"In Situ Tuning of Switching Window in a Gate‐Controlled Bilayer Graphene‐Electrode Resistive Memory Device","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Resistive random-access memory; Materials science; Electrode; Optoelectronics; Graphene; Bilayer; Bilayer graphene; Gating; Voltage; Window (computing); Resistive touchscreen; Nanotechnology; Electrical engineering; Membrane","score_opus":0.018211366232866646,"score_gpt":0.25948999236309056,"score_spread":0.2412786261302239,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1866891130","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959238,0.0005775455,0.0015560564,0.000025720376,0.00047920315,0.00044807384,0.0000033603078,0.00012491387,0.00086132286],"genre_scores_gemma":[0.99710834,0.000045955836,0.0025736408,0.00006414705,0.00008048572,0.000052620788,0.0000035053163,0.000046799836,0.000024525423],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99826837,0.00013001796,0.0006886976,0.00027836108,0.00018838934,0.00044618038],"domain_scores_gemma":[0.99927086,0.00020552492,0.00014870771,0.00022203237,0.000073424155,0.00007948418],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000720564,0.00025450287,0.0007482758,0.00027483323,0.0000287715,0.000016467815,0.0001671692,0.00007966045,0.00001046575],"category_scores_gemma":[0.00035388893,0.00024978246,0.000048333055,0.00038786276,0.000019047724,0.00049330556,0.00005311976,0.00017969884,0.000006228133],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00062831194,0.000016498507,0.000030280773,0.00007568298,0.000012710685,0.000039664257,0.0004969954,0.14026703,0.8578762,0.00008840901,0.0000034824868,0.0004647519],"study_design_scores_gemma":[0.004805334,0.00005749294,0.00033803403,0.0002478067,0.000011140466,0.000007775777,0.00025721383,0.00041806858,0.9907328,0.0028209775,0.000040182364,0.00026320148],"about_ca_topic_score_codex":0.000024932617,"about_ca_topic_score_gemma":0.0001326435,"teacher_disagreement_score":0.13984896,"about_ca_system_score_codex":0.00013851412,"about_ca_system_score_gemma":0.000034698285,"threshold_uncertainty_score":0.99999547},"labels":[],"label_agreement":null},{"id":"W1882735753","doi":"10.1002/adma.201502809","title":"Snapping Mechanical Metamaterials under Tension","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cellular and Composite Structures","field":"Engineering","cited_by":444,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung","keywords":"Materials science; Metamaterial; Composite material; Tension (geology); Nanotechnology; Compression (physics); Optoelectronics","score_opus":0.016566644427621832,"score_gpt":0.22630672445720804,"score_spread":0.20974008002958622,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1882735753","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9853874,0.0003019489,0.008697777,0.000035706737,0.0036428692,0.00016032935,0.000017874509,0.00048083806,0.0012752725],"genre_scores_gemma":[0.9952549,0.00003263761,0.004296467,0.00008440501,0.00019610336,0.00001551588,0.000032008727,0.000041439333,0.00004656176],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991095,0.000037954887,0.00026310357,0.00016482266,0.00018557375,0.00023904249],"domain_scores_gemma":[0.9995498,0.000016266424,0.000031146443,0.00023615023,0.000060128717,0.00010652087],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020373493,0.00016979463,0.00029637056,0.000043239037,0.000032668057,0.00006681348,0.0001196496,0.00007535815,0.00022476024],"category_scores_gemma":[0.000029083098,0.00014908193,0.000034631204,0.00006188359,0.000014199775,0.00014888169,0.000055061162,0.00003956749,0.000100292695],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002647987,0.0000035141552,2.808305e-7,0.000021903688,0.000022390112,0.0000063108855,0.00002961929,0.007808077,0.9895003,0.0017849924,0.00033056346,0.00046558448],"study_design_scores_gemma":[0.0003897385,0.000024187106,0.000028136119,0.00001899475,0.000019805324,0.00002266607,0.000043008575,0.0001647796,0.9834112,0.009709315,0.0059707384,0.00019745728],"about_ca_topic_score_codex":0.0000069565845,"about_ca_topic_score_gemma":0.0000017134047,"teacher_disagreement_score":0.009867476,"about_ca_system_score_codex":0.00005662824,"about_ca_system_score_gemma":0.0000109047705,"threshold_uncertainty_score":0.60793847},"labels":[],"label_agreement":null},{"id":"W1949478710","doi":"10.1002/adma.201502284","title":"Cellulose Nanocrystal Aerogels as Universal 3D Lightweight Substrates for Supercapacitor Materials","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":336,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Materials science; Supercapacitor; Polypyrrole; Nanocrystal; Nanofiber; Cellulose; Manganese; Nanoparticle; Nanotechnology; Capacitance; Substrate (aquarium); Carbon nanotube; Chemical engineering; Electrode; Composite material; Polymer; Metallurgy","score_opus":0.021431961181816988,"score_gpt":0.25013278669220257,"score_spread":0.2287008255103856,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1949478710","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9863828,0.00016638666,0.00047778763,0.00016531914,0.009109067,0.001313671,0.0012385142,0.00044791802,0.00069853594],"genre_scores_gemma":[0.9835863,0.000043721593,0.013042423,0.00016439953,0.0014631213,0.00040338424,0.00036471887,0.00012910285,0.00080280623],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9961114,0.00030216912,0.0010303276,0.00094129663,0.0006562401,0.00095859217],"domain_scores_gemma":[0.99761283,0.0001745525,0.00036712177,0.0007243426,0.00071444345,0.00040673182],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0014890609,0.00060014013,0.0009125649,0.00015394099,0.0002496994,0.0005975027,0.00063981774,0.00025994587,0.0041291],"category_scores_gemma":[0.0004472731,0.0005386567,0.000102086444,0.00018178567,0.00025545197,0.001535729,0.00014204615,0.000059513404,0.0014600622],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008884027,0.00011797436,0.00000960497,0.000109942,0.000019932455,0.00001646848,0.0006903324,0.000011137303,0.9911312,0.005333343,0.0015664174,0.00010525997],"study_design_scores_gemma":[0.0019289142,0.00041474716,0.000033280037,0.00006960862,0.00006348563,0.000045311073,0.00064034894,0.0000023713235,0.9736344,0.0036280465,0.01884772,0.000691746],"about_ca_topic_score_codex":0.00028048074,"about_ca_topic_score_gemma":0.000012314631,"teacher_disagreement_score":0.017496765,"about_ca_system_score_codex":0.00031927324,"about_ca_system_score_gemma":0.00028392195,"threshold_uncertainty_score":0.9997065},"labels":[],"label_agreement":null},{"id":"W1953303465","doi":"10.1002/adma.201502467","title":"A Nitrogen and Sulfur Dual‐Doped Carbon Derived from Polyrhodanine@Cellulose for Advanced Lithium–Sulfur Batteries","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":786,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Resources Canada; Natural Sciences and Engineering Research Council of Canada","keywords":"Sulfur; Materials science; Carbon fibers; Lithium (medication); Cellulose; Nitrogen; Dual (grammatical number); Doping; Inorganic chemistry; Organic chemistry; Composite number; Composite material; Metallurgy; Chemistry; Optoelectronics","score_opus":0.01563819230282889,"score_gpt":0.228966833740967,"score_spread":0.2133286414381381,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1953303465","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.991073,0.0015607774,0.002316494,0.00017544543,0.001715075,0.0008690404,0.0006355436,0.0014430586,0.0002115817],"genre_scores_gemma":[0.9683998,0.0003178325,0.029946322,0.0001011829,0.00025814382,0.0005128177,0.00018856912,0.00016462452,0.000110704495],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978139,0.000049464423,0.00065303856,0.00058482535,0.00022155473,0.00067722786],"domain_scores_gemma":[0.99880105,0.0001460469,0.00017072045,0.00054032257,0.00016080288,0.00018106689],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002209725,0.0005694748,0.000843345,0.000115599934,0.00008240531,0.00014993665,0.000248545,0.00022861948,0.000049158567],"category_scores_gemma":[0.0002736919,0.00054689264,0.00005471215,0.00012323262,0.0001490768,0.00051356,0.00019866019,0.00010038359,0.00001542798],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034089762,0.000019242983,0.00006746061,0.00013362814,0.000065613036,0.00001932315,0.00023764232,0.00039882612,0.99582326,0.0001718947,0.00017492959,0.002547289],"study_design_scores_gemma":[0.0021965392,0.0001887814,0.00013899959,0.000091700436,0.000051622374,0.000015173179,0.00041524094,0.00006205274,0.976543,0.013811479,0.005831508,0.0006539204],"about_ca_topic_score_codex":0.00006474439,"about_ca_topic_score_gemma":0.000025260473,"teacher_disagreement_score":0.027629828,"about_ca_system_score_codex":0.00011852777,"about_ca_system_score_gemma":0.000036609086,"threshold_uncertainty_score":0.9996983},"labels":[],"label_agreement":null},{"id":"W1965019267","doi":"10.1002/adma.200306094","title":"Ultra‐High‐Density Photochromic Main‐Chain 1,2‐Dithienylcyclopentene Polymers Prepared Using Ring‐Opening Metathesis Polymerization","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Photochromism; Materials science; Ring-opening metathesis polymerisation; Polymer; Polymerization; Monomer; Metathesis; Polymer chemistry; ROMP; Ring-opening polymerization; Ring (chemistry); Chemical engineering; Nanotechnology; Organic chemistry; Composite material; Chemistry","score_opus":0.011128806687805335,"score_gpt":0.2437454020103645,"score_spread":0.23261659532255916,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1965019267","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99174136,0.000104457424,0.005515848,0.00004510774,0.0010000702,0.000798741,0.00023201862,0.00027254244,0.0002898285],"genre_scores_gemma":[0.98131466,0.000065690256,0.017839335,0.00019950472,0.00020422669,0.00010920172,0.00007639386,0.000082785504,0.00010822877],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968518,0.00011369082,0.00077607477,0.0009153522,0.0005297686,0.00081333035],"domain_scores_gemma":[0.99838966,0.000058028254,0.0005251793,0.0006961662,0.000109733286,0.00022124649],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00062084105,0.00047686254,0.00073250086,0.00010737532,0.00042042902,0.00022121465,0.0005566522,0.00018293914,0.0014774585],"category_scores_gemma":[0.00024152524,0.0004748887,0.00010536205,0.00027642061,0.00026927926,0.0008489006,0.00015421843,0.00010510249,0.00012216186],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028674625,0.00007016883,0.000009425912,0.00007216188,0.00002527171,0.000041404983,0.0003426916,0.00120218,0.9976607,0.00013927411,0.000007211535,0.0001427937],"study_design_scores_gemma":[0.0015548393,0.00004649959,0.00021264325,0.00023663286,0.00007488127,0.00010560246,0.00027374824,0.000016979055,0.9961609,0.00073698314,0.000024312625,0.0005559602],"about_ca_topic_score_codex":0.0014382418,"about_ca_topic_score_gemma":0.000017403789,"teacher_disagreement_score":0.012323487,"about_ca_system_score_codex":0.00049901166,"about_ca_system_score_gemma":0.00025648577,"threshold_uncertainty_score":0.9997703},"labels":[],"label_agreement":null},{"id":"W1966894293","doi":"10.1002/adma.200803330","title":"Dye‐Anchored Mesoporous Antimony‐Doped Tin Oxide Electrochemiluminescence Cell","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Semiconductor materials and devices","field":"Engineering","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Government of Canada","keywords":"Electrochemiluminescence; Materials science; Tin oxide; Antimony; Mesoporous material; Doping; Tin; Ruthenium; Electrode; Nanotechnology; Oxide; Indium tin oxide; Optoelectronics; Thin film; Chemistry; Organic chemistry; Metallurgy; Catalysis","score_opus":0.0041923366114324685,"score_gpt":0.20038261535186375,"score_spread":0.19619027874043127,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1966894293","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942375,0.00094809814,0.00010245148,0.000026575677,0.0008097183,0.00024773076,0.000030541414,0.0007032412,0.0028941594],"genre_scores_gemma":[0.9952067,0.0004387506,0.003635982,0.00021776154,0.0002296507,0.000023117223,0.000048278376,0.000055774948,0.0001439642],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984742,0.000024029097,0.00045806472,0.00032444167,0.00019915347,0.0005201101],"domain_scores_gemma":[0.99932843,0.00002525194,0.00009634304,0.00038268513,0.00006762619,0.00009963848],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001620475,0.00032229576,0.0004554316,0.00006158922,0.000052657542,0.00010262566,0.00026782515,0.00011570038,0.00032339414],"category_scores_gemma":[0.00003721716,0.0003123622,0.000044928587,0.00013588609,0.000022896731,0.00033194508,0.000023319699,0.000066697256,0.00015943007],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034167984,0.00002140022,0.000011415328,0.0000787194,0.000007557814,0.0000129161,0.000043374992,0.00015832938,0.99840194,0.000056965197,0.00078755064,0.00038566522],"study_design_scores_gemma":[0.00045210062,0.000054075856,0.0005496394,0.000045285127,0.000015939828,0.00001215289,0.000022181986,0.000015821206,0.99526596,0.0005445703,0.002641029,0.000381253],"about_ca_topic_score_codex":0.000009910556,"about_ca_topic_score_gemma":0.0000015263447,"teacher_disagreement_score":0.0035335305,"about_ca_system_score_codex":0.00006465709,"about_ca_system_score_gemma":0.000016349977,"threshold_uncertainty_score":0.9999328},"labels":[],"label_agreement":null},{"id":"W1967857390","doi":"10.1002/adma.200306227","title":"Photoregulation of Luminescence Quenching in Photochromic Porphyrin–Phenoxynaphthacene‐ quinone Copolymers","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"British Columbia Knowledge Development Fund; Simon Fraser University; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Photochromism; Photochemistry; Materials science; Copolymer; Porphyrin; Quenching (fluorescence); Photoinduced electron transfer; Polymerization; Fluorescence; Polymer; Electron transfer; Luminescence; Optoelectronics; Chemistry; Optics","score_opus":0.005445525682334129,"score_gpt":0.2286401404947121,"score_spread":0.22319461481237796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1967857390","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980098,0.000116939,0.00025353584,0.00002541692,0.0005063517,0.0005199564,0.00007570328,0.000078694015,0.00041360906],"genre_scores_gemma":[0.99482065,0.00003263165,0.004800783,0.00004922355,0.00006761197,0.00013965157,0.00002972482,0.000030901876,0.000028809616],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99787796,0.000045614343,0.0007432568,0.0005019588,0.00036181716,0.00046939898],"domain_scores_gemma":[0.99892414,0.000040156727,0.00040226371,0.00045390305,0.000086729975,0.00009280253],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004328912,0.00027226016,0.00052871887,0.00010267951,0.00006463106,0.00003439443,0.00037450687,0.00013240495,0.00087769993],"category_scores_gemma":[0.00012317281,0.0002709334,0.000054639673,0.0002220854,0.0002830475,0.00047827864,0.000091743146,0.00007905421,0.00005074551],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019505178,0.000094503535,0.00012165221,0.00012514152,0.0000034728237,0.000019245092,0.00031440853,0.00055369595,0.99819326,0.00029763,0.0000070482265,0.00007488952],"study_design_scores_gemma":[0.0015741672,0.000053412266,0.0018236818,0.0003529914,0.000008154948,0.00002680373,0.00016393549,0.0000055511764,0.9939094,0.001789919,0.000008269512,0.00028367693],"about_ca_topic_score_codex":0.00073777646,"about_ca_topic_score_gemma":0.000027760047,"teacher_disagreement_score":0.004547247,"about_ca_system_score_codex":0.00030824062,"about_ca_system_score_gemma":0.00018435565,"threshold_uncertainty_score":0.9999743},"labels":[],"label_agreement":null},{"id":"W1968432302","doi":"10.1002/adma.201104711","title":"Near‐Infrared Thermochromic Diazapentalene Dyes","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":33,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Carleton University","funders":"Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Thermochromism; Materials science; Infrared; Protonation; Optoelectronics; Absorption (acoustics); Near-infrared spectroscopy; Photochemistry; Nanotechnology; Optics; Organic chemistry; Chemistry; Composite material","score_opus":0.009348308851368824,"score_gpt":0.24508611551030832,"score_spread":0.23573780665893948,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1968432302","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99358183,0.00036431346,0.00007481949,0.000022070444,0.0013560507,0.00026312162,0.00010858686,0.00020023415,0.004028957],"genre_scores_gemma":[0.993698,0.000052148203,0.004923229,0.00019987354,0.00035740112,0.000103661776,0.000035882676,0.000039338727,0.0005904918],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99835616,0.000050170966,0.00035157928,0.00030320475,0.0002694904,0.000669399],"domain_scores_gemma":[0.9990829,0.00004864986,0.00016260358,0.00046994686,0.000047333633,0.0001885656],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00040530838,0.00023957207,0.00033472633,0.000019297335,0.00017510494,0.00011325699,0.00035372487,0.00010482019,0.010006493],"category_scores_gemma":[0.000100588746,0.00020941696,0.000050104853,0.00006791274,0.0002074361,0.00069420494,0.00014219027,0.00005723685,0.0019813122],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006736857,0.0000628332,0.00017446207,0.000041962296,0.000004851352,0.0000033694869,0.00020610243,0.000002912249,0.99845,0.00013372926,0.00056644884,0.0002859545],"study_design_scores_gemma":[0.00043996278,0.00001902287,0.0026288915,0.000044246048,0.0000127796975,0.000026612368,0.00006682322,0.0000012746239,0.9938072,0.00050998863,0.002167988,0.00027523394],"about_ca_topic_score_codex":0.00002025299,"about_ca_topic_score_gemma":5.224679e-7,"teacher_disagreement_score":0.008025181,"about_ca_system_score_codex":0.00011419093,"about_ca_system_score_gemma":0.000053084725,"threshold_uncertainty_score":0.99879575},"labels":[],"label_agreement":null},{"id":"W1969226723","doi":"10.1002/adma.201202484","title":"Electrochromic Bragg Mirror: ECBM","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Transition Metal Oxide Nanomaterials","field":"Materials Science","cited_by":80,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"University of Toronto","funders":"Government of Canada; Strong; Alexander von Humboldt-Stiftung","keywords":"Materials science; Electrochromism; Optoelectronics; Distributed Bragg reflector; Photonic crystal; Nanoporous; Nanocrystalline material; Photonics; Optics; Nanotechnology; Electrode; Wavelength","score_opus":0.00950318714100631,"score_gpt":0.2503350457553124,"score_spread":0.2408318586143061,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1969226723","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930584,0.0003690337,0.00042552015,0.00010368347,0.0040959707,0.00043190995,0.00017133885,0.00049324724,0.0008509265],"genre_scores_gemma":[0.9809696,0.000044440414,0.017631337,0.0004474368,0.00038182543,0.00012619789,0.0000431098,0.000073064046,0.0002829726],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971686,0.00025955608,0.00068467,0.00041573585,0.00044046016,0.0010309848],"domain_scores_gemma":[0.99875575,0.000085288586,0.00027158117,0.0005359738,0.00010661673,0.0002447767],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0012213723,0.0003436598,0.00058439,0.000105365376,0.00015308152,0.00014253042,0.0003560886,0.00013921554,0.009214567],"category_scores_gemma":[0.00014212474,0.0003151616,0.00008207721,0.00015288036,0.00010301248,0.0010346837,0.000079500845,0.000054182234,0.005689912],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001444608,0.00007374504,0.000025777792,0.00004893331,0.000007987956,0.0000036811018,0.00010683662,0.0000022862355,0.9967462,0.0024583244,0.0001326895,0.00024911252],"study_design_scores_gemma":[0.0006657965,0.00006593635,0.0024362893,0.000030531348,0.000031264382,0.000060793733,0.000023398716,1.2086855e-7,0.9859419,0.00079880876,0.009560215,0.00038493765],"about_ca_topic_score_codex":0.000038430328,"about_ca_topic_score_gemma":0.000005957959,"teacher_disagreement_score":0.017205818,"about_ca_system_score_codex":0.00014367659,"about_ca_system_score_gemma":0.000051541025,"threshold_uncertainty_score":0.99993},"labels":[],"label_agreement":null},{"id":"W1969268002","doi":"10.1002/adma.200401660","title":"Structurally Ordered Polythiophene Nanoparticles for High‐Performance Organic Thin‐Film Transistors","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":314,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada)","funders":"","keywords":"Materials science; Polythiophene; Nanoparticle; Lamellar structure; Organic semiconductor; Transistor; Dispersion (optics); Fabrication; Semiconductor; Field-effect transistor; Nanotechnology; Organic field-effect transistor; Thin-film transistor; Thin film; Optoelectronics; Polymer; Conductive polymer; Composite material; Layer (electronics); Optics","score_opus":0.0040987838954096075,"score_gpt":0.188316532102032,"score_spread":0.1842177482066224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1969268002","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975151,0.0004397634,0.0003244085,0.00011590301,0.0007487345,0.0003449394,0.000081745784,0.00037213566,0.00005729597],"genre_scores_gemma":[0.9948288,0.00032750622,0.004224237,0.000111159985,0.00021780349,0.000047723803,0.00003240527,0.000092639064,0.00011769121],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99884033,0.000011065129,0.00034821162,0.00020309088,0.00013730663,0.0004599855],"domain_scores_gemma":[0.99954176,0.000032140426,0.00005011641,0.0002452129,0.00006244247,0.00006830437],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001294322,0.00022649004,0.00028299302,0.00003776166,0.00010359867,0.000045090706,0.00017788744,0.00008975162,0.0004629007],"category_scores_gemma":[0.00002154135,0.00021859331,0.000030673833,0.00011601813,0.000020795644,0.0002797539,0.000013920572,0.00006918015,0.000035220437],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048655,0.000008599571,0.0000019778304,0.00009478224,0.00002760295,3.7836557e-7,0.00012677076,0.011279842,0.9859066,0.00061425945,0.00012704774,0.0017634765],"study_design_scores_gemma":[0.00076704903,0.00010317686,0.0001419677,0.000018082394,0.000024266692,0.0000061138544,0.000010738668,0.00076932856,0.9918109,0.00092890824,0.0051300903,0.00028935436],"about_ca_topic_score_codex":0.0000053653825,"about_ca_topic_score_gemma":0.000051888448,"teacher_disagreement_score":0.010510514,"about_ca_system_score_codex":0.00014416162,"about_ca_system_score_gemma":0.000038657272,"threshold_uncertainty_score":0.89139766},"labels":[],"label_agreement":null},{"id":"W1969896717","doi":"10.1002/adma.201002912","title":"Tuning the Threshold Voltage in Organic Thin‐Film Transistors by Local Channel Doping Using Photoreactive Interfacial Layers","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Austrian Science Fund","keywords":"Materials science; Threshold voltage; Thin-film transistor; Transistor; Optoelectronics; Electronic circuit; Inverter; Voltage; Layer (electronics); Nanotechnology; Electronic engineering; Electrical engineering; Engineering","score_opus":0.006654768568782228,"score_gpt":0.21178276064594082,"score_spread":0.2051279920771586,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1969896717","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.989741,0.00018841079,0.007411999,0.000021589207,0.0018174998,0.00030957197,0.000052590807,0.00015061817,0.0003066717],"genre_scores_gemma":[0.9994868,0.000073146155,0.00009137351,0.00008044182,0.00012174126,0.000020583197,0.000014501043,0.00009054186,0.000020851616],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99874616,0.000021145413,0.00033285137,0.00024616718,0.00016980889,0.0004838714],"domain_scores_gemma":[0.99952847,0.000050794573,0.00006415157,0.00026111418,0.0000347214,0.000060746777],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003346654,0.00026356344,0.00030425197,0.00006583003,0.00011245765,0.00006561503,0.0002641015,0.0001563445,0.00028278655],"category_scores_gemma":[0.000030675623,0.00022936055,0.0000411527,0.00019726703,0.00006841753,0.00025450726,0.000038818016,0.00046854955,0.000009100424],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000029136638,0.000012451497,0.000007029488,0.000028804856,0.00002191491,0.000004388665,0.0012499413,0.0060454435,0.9923304,0.0001054154,0.000037061014,0.00012805717],"study_design_scores_gemma":[0.00040229456,0.000028608843,0.000016828528,0.000045325796,0.0000149193,0.00001003212,0.00026237118,0.009337729,0.98728687,0.00046486864,0.0018506991,0.00027946485],"about_ca_topic_score_codex":0.0001470515,"about_ca_topic_score_gemma":0.000521638,"teacher_disagreement_score":0.009745771,"about_ca_system_score_codex":0.00023278192,"about_ca_system_score_gemma":0.000048942624,"threshold_uncertainty_score":0.9353052},"labels":[],"label_agreement":null},{"id":"W1971164334","doi":"10.1002/1521-4095(200104)13:8<561::aid-adma561>3.0.co;2-b","title":"Observation of a Double Maximum in the Dependence of Conductivity on Oxidation State in Potassium Fulleride Nanowires Supported by a Mesoporous Niobium Oxide Host Lattice","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Fullerene Chemistry and Applications","field":"Chemistry","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec; University of Windsor","funders":"","keywords":"Materials science; Niobium; Niobium oxide; Mesoporous material; Oxide; Nanowire; Stoichiometry; Conductivity; Lattice (music); Superconductivity; Potassium; Condensed matter physics; Oxidation state; Chemical physics; Nanotechnology; Chemical engineering; Inorganic chemistry; Physical chemistry; Metal; Catalysis; Organic chemistry","score_opus":0.023703222842859088,"score_gpt":0.27009921332552767,"score_spread":0.24639599048266858,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1971164334","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985102,0.00003223936,0.000041785064,0.00029383815,0.00003499708,0.00022838678,0.0001848769,0.00002329387,0.0006504053],"genre_scores_gemma":[0.9988245,0.00009968934,0.0003462543,0.00004346371,0.000014291847,0.00016650379,0.00024272133,0.000015507921,0.0002471018],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99860257,0.00004357568,0.0005922989,0.0002897445,0.00025344157,0.0002183844],"domain_scores_gemma":[0.9988495,0.00015730814,0.00043883114,0.00042940327,0.000097750904,0.000027169224],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037088542,0.00016839908,0.00029822922,0.000036195775,0.000033669334,0.000017308083,0.0002588028,0.00009225741,0.00025297594],"category_scores_gemma":[0.000104459854,0.00014933734,0.00002901404,0.0002399149,0.00007068063,0.00023054074,0.000034547542,0.00009778379,0.0000040199466],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00054360175,0.00027368104,0.0009151205,0.00016992718,0.00000770911,0.000006079764,0.00017629303,0.00016113314,0.9973987,0.00010449658,0.00006861525,0.00017465206],"study_design_scores_gemma":[0.0012169041,0.000022127619,0.00303146,0.00010000663,0.000009240015,0.000006853563,0.00027706864,0.0000050594094,0.9934716,0.0012663805,0.0004559564,0.00013734122],"about_ca_topic_score_codex":0.00066410773,"about_ca_topic_score_gemma":0.00013957122,"teacher_disagreement_score":0.003927089,"about_ca_system_score_codex":0.00007008348,"about_ca_system_score_gemma":0.000052779367,"threshold_uncertainty_score":0.60898},"labels":[],"label_agreement":null},{"id":"W1971856779","doi":"10.1002/adma.200801724","title":"Highly Cooperative Behavior of Peptide Nucleic Acid‐Linked DNA‐Modified Gold‐Nanoparticle and Comb‐Polymer Aggregates","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"National Cancer Institute","keywords":"DNA; Nanoparticle; Polymer; Nucleic acid; Colloidal gold; Materials science; Peptide nucleic acid; Peptide; Melting temperature; Aggregate (composite); Nanotechnology; Nucleic acid thermodynamics; Salt (chemistry); Crystallography; Combinatorial chemistry; Chemistry; Biochemistry; Organic chemistry; Base sequence","score_opus":0.012370189551205083,"score_gpt":0.2593845666181725,"score_spread":0.2470143770669674,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1971856779","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985233,0.0007609667,0.00013884854,0.00004555858,0.00007351223,0.00024799845,0.00006957918,0.00005390377,0.000086332395],"genre_scores_gemma":[0.9954085,0.00062587,0.002986893,0.00013679256,0.000058716956,0.00003976419,0.00008176054,0.000030263598,0.0006314548],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99877554,0.00007089742,0.00037849788,0.00038586708,0.00013735716,0.00025185756],"domain_scores_gemma":[0.99917156,0.000015567835,0.000209518,0.0003410892,0.00018465465,0.000077596946],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000097579716,0.00022470302,0.00037798108,0.000044101853,0.00010036552,0.000015544292,0.000118721626,0.00013187368,0.0000053649146],"category_scores_gemma":[0.0000809076,0.00019214315,0.000060745497,0.00009583428,0.00034020375,0.000016177757,0.0001049299,0.000041865445,0.0000026869072],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001714888,0.0000942272,0.00013171014,0.00001756888,0.00004008941,0.0000123857435,0.00004219426,0.0000030797876,0.9984051,0.00010149253,0.00009675219,0.0008838987],"study_design_scores_gemma":[0.0006764585,0.00032811603,0.00085364986,0.000031700514,0.000058068137,0.000034958637,0.00003625643,0.000002281724,0.9972912,0.000058468686,0.00038337498,0.0002454432],"about_ca_topic_score_codex":0.000015938847,"about_ca_topic_score_gemma":0.00000954874,"teacher_disagreement_score":0.0031148158,"about_ca_system_score_codex":0.00001211009,"about_ca_system_score_gemma":0.00002948251,"threshold_uncertainty_score":0.78353703},"labels":[],"label_agreement":null},{"id":"W1972324501","doi":"10.1002/adma.200304917","title":"A Multi‐Addressable Photochromic 1,2‐Dithienylcyclopentene‐Phenoxynaphthacenequinone Hybrid","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":107,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Photochromism; Materials science; Hybrid material; Optoelectronics; Nanotechnology; Photochemistry; Chemistry","score_opus":0.015686817278386517,"score_gpt":0.2528630631393991,"score_spread":0.23717624586101257,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1972324501","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9926054,0.00025300225,0.0007404296,0.000017446035,0.0014544462,0.000749744,0.0002493102,0.00026369042,0.0036665655],"genre_scores_gemma":[0.97326946,0.00009169337,0.024311218,0.00022896176,0.00010663935,0.00035546438,0.000041397772,0.00007166343,0.001523517],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970367,0.00014089492,0.0006519305,0.0008328879,0.00043424193,0.00090336736],"domain_scores_gemma":[0.99839413,0.00006601415,0.000304796,0.0008281933,0.00016638603,0.00024050506],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00077114726,0.00042977688,0.0006302558,0.0000627138,0.00025990474,0.00017184006,0.00057665724,0.000120981014,0.009031849],"category_scores_gemma":[0.00040990603,0.00039916232,0.00008771781,0.00014714453,0.00026184358,0.00054518465,0.0001363168,0.00012013811,0.0013835432],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010001491,0.0001449046,0.000017013701,0.000073965384,0.000010779903,0.000056755835,0.000057276684,0.00004735636,0.99844635,0.00013057125,0.0008731285,0.000041891733],"study_design_scores_gemma":[0.0017371763,0.00005062679,0.00008005452,0.00009841314,0.000020178402,0.00014669009,0.00009720954,0.000008032076,0.99181885,0.0005191222,0.0049175136,0.00050613197],"about_ca_topic_score_codex":0.00005103899,"about_ca_topic_score_gemma":0.0000031659408,"teacher_disagreement_score":0.023570789,"about_ca_system_score_codex":0.0001978481,"about_ca_system_score_gemma":0.0001686285,"threshold_uncertainty_score":0.99984604},"labels":[],"label_agreement":null},{"id":"W1972540744","doi":"10.1002/adma.200802348","title":"Stacking the Nanochemistry Deck: Structural and Compositional Diversity in One‐Dimensional Photonic Crystals","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":240,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photonic crystal; Photonics; Nanochemistry; Stacking; Fabrication; Nanotechnology; Bragg's law; Optoelectronics; Optics; Diffraction; Physics","score_opus":0.012165937219771425,"score_gpt":0.2524029488648044,"score_spread":0.24023701164503297,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1972540744","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99875957,0.000047487854,0.00005512,0.0002428956,0.0000353398,0.00018646543,0.0001990466,0.000013316319,0.0004607794],"genre_scores_gemma":[0.9990729,0.0000036466777,0.0006383083,0.000110532004,0.0000498335,0.000014985538,0.00008458796,0.0000045152206,0.000020694843],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99932617,0.000018443803,0.00016554956,0.00018616197,0.00013095919,0.00017272019],"domain_scores_gemma":[0.99966455,0.000043142285,0.00008015154,0.00014014382,0.000034013552,0.000037996626],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010061831,0.0001047913,0.00014679527,0.00001331896,0.00029372572,0.00004317459,0.000109107015,0.0000211325,0.0004128417],"category_scores_gemma":[0.0000024844999,0.00008633642,0.000024516565,0.0000509501,0.00005069972,0.00010703865,0.00011876587,0.00005945224,0.000002175575],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024561568,0.00002701978,0.00047129855,0.000003583626,0.0000082744045,5.415343e-7,0.00006676018,0.00009237863,0.99041325,0.008465476,0.000018223855,0.00040866013],"study_design_scores_gemma":[0.00084191904,0.000021739188,0.04510018,0.000049204526,0.000015416428,0.000004251006,0.00012973016,0.000041412863,0.8747591,0.078467734,0.00036018953,0.00020916107],"about_ca_topic_score_codex":0.000052297753,"about_ca_topic_score_gemma":0.000002769859,"teacher_disagreement_score":0.11565416,"about_ca_system_score_codex":0.000030270912,"about_ca_system_score_gemma":0.00002625737,"threshold_uncertainty_score":0.45203272},"labels":[],"label_agreement":null},{"id":"W1972815794","doi":"10.1002/adma.200802850","title":"Progress with Molecular Electronic Junctions: Meeting Experimental Challenges in Design and Fabrication","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Molecular Junctions and Nanostructures","field":"Engineering","cited_by":364,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada; National Institute for Nanotechnology; University of Alberta","funders":"","keywords":"Nanotechnology; Molecular electronics; Electronics; Materials science; Fabrication; Characterization (materials science); Substrate (aquarium); Field (mathematics); Engineering physics; Molecule; Electrical engineering; Physics; Engineering","score_opus":0.007816725652742247,"score_gpt":0.2226394328744887,"score_spread":0.21482270722174646,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1972815794","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97298974,0.016575756,0.00955114,0.00006255573,0.00010970865,0.00037777398,8.172277e-7,0.00014968085,0.00018282495],"genre_scores_gemma":[0.98973274,0.0009063365,0.009217531,0.000015542138,0.000016303362,0.0000878624,0.000003944499,0.000017142735,0.0000026121459],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99943686,0.00003057203,0.000119008546,0.00015279738,0.00007713153,0.00018362429],"domain_scores_gemma":[0.9998196,0.000006112413,0.000023429668,0.00010878317,0.000019897545,0.000022212216],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008652299,0.00011219759,0.000117028336,0.000067919216,0.000029886269,0.000024347706,0.000035988498,0.000036338726,0.00000858143],"category_scores_gemma":[0.000007824514,0.00010048207,0.0000075040034,0.00007650007,0.00001517302,0.00010700716,0.000005147808,0.000038089056,0.0000011136099],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000392133,0.0000138528485,0.0000035806088,0.0000130843,0.000008093057,0.000004828921,0.00007066388,0.006333208,0.98000336,0.0011938809,0.000004561682,0.01231165],"study_design_scores_gemma":[0.00037479927,0.00018466097,0.00069581106,0.00003988899,0.0000061978762,0.000016811382,0.000066160675,0.00017169846,0.9970187,0.0009468006,0.00034163543,0.00013684011],"about_ca_topic_score_codex":0.0000011627543,"about_ca_topic_score_gemma":0.0000013675104,"teacher_disagreement_score":0.017015314,"about_ca_system_score_codex":0.00005298756,"about_ca_system_score_gemma":0.0000075285234,"threshold_uncertainty_score":0.40975398},"labels":[],"label_agreement":null},{"id":"W1973531192","doi":"10.1002/adma.200400690","title":"High‐Performance Organic Thin‐Film Transistors with Solution‐Printed Gold Contacts","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":151,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada)","funders":"National Institute of Standards and Technology","keywords":"Materials science; Thin-film transistor; Transistor; Annealing (glass); Colloidal gold; Thin film; Optoelectronics; Electrode; Nanotechnology; Conductivity; Electrical conductor; Nanoparticle; Composite material; Electrical engineering; Layer (electronics); Voltage","score_opus":0.0037761261219648387,"score_gpt":0.17605766294092332,"score_spread":0.17228153681895847,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1973531192","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99682266,0.00023849399,0.0011143009,0.000085302745,0.00049066864,0.0002223215,0.000027055392,0.00047022378,0.00052896317],"genre_scores_gemma":[0.9970842,0.0004500137,0.0017719165,0.000106003026,0.00014384267,0.000023217253,0.000025221905,0.00008300199,0.00031258745],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989298,0.000013089661,0.00027390823,0.00019496024,0.00016837816,0.00041986076],"domain_scores_gemma":[0.9995226,0.000018138713,0.000049653794,0.00027074103,0.00006232675,0.00007653542],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012588025,0.00022905802,0.00028303024,0.00004548533,0.000060309878,0.000034865076,0.00015671954,0.00008552779,0.00052764383],"category_scores_gemma":[0.00000958847,0.0002066071,0.000020410002,0.00014578359,0.000023451941,0.00029708067,0.000014146518,0.00012444021,0.0001353256],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000498715,0.00001544701,0.000006351586,0.00005933005,0.00003608637,0.0000018494624,0.000103048034,0.01613814,0.9825841,0.00031707447,0.00023412902,0.00045455236],"study_design_scores_gemma":[0.00072980137,0.00011482525,0.00023700924,0.000046395777,0.00002331568,0.000014427852,0.000007530775,0.0007636583,0.9850249,0.00005462394,0.012695579,0.00028788048],"about_ca_topic_score_codex":0.000015648815,"about_ca_topic_score_gemma":0.00014022617,"teacher_disagreement_score":0.015374482,"about_ca_system_score_codex":0.00025323985,"about_ca_system_score_gemma":0.00004361532,"threshold_uncertainty_score":0.84251934},"labels":[],"label_agreement":null},{"id":"W1975762917","doi":"10.1002/adma.201201566","title":"Measurements of Anisotropic (Off‐Axis) Friction‐Induced Motion","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Force Microscopy Techniques and Applications","field":"Physics and Astronomy","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; University of Alberta","funders":"Division of Materials Sciences and Engineering; Basic Energy Sciences; U.S. Department of Energy","keywords":"Anisotropy; Shearing (physics); Materials science; Perpendicular; Surface forces apparatus; Surface (topology); Mechanics; Nanotechnology; Composite material; Mica; Optics; Physics; Geometry; Mathematics","score_opus":0.02634834589123883,"score_gpt":0.300233667191231,"score_spread":0.27388532129999216,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1975762917","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9867893,0.000021773483,0.008591713,0.000016036442,0.00022887607,0.0002648145,0.00016694808,0.00005406198,0.0038665095],"genre_scores_gemma":[0.9915982,0.0000021214537,0.007879009,0.000011255635,0.00014865676,0.00012227672,0.00010816311,0.000014198613,0.00011612504],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99939173,0.000019253432,0.00020946909,0.00010249778,0.00009968457,0.00017735903],"domain_scores_gemma":[0.9995696,0.0000069342805,0.0001224196,0.00019163643,0.000070286,0.000039144103],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000098641634,0.00009119696,0.00013967227,0.000025252964,0.00006458976,0.000011454976,0.00007641366,0.000024919142,0.0023905898],"category_scores_gemma":[0.0000039200613,0.00008742509,0.000033477892,0.000067527464,0.000013253037,0.0001907001,0.000026221196,0.000025228377,0.000058627676],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000004695254,0.000079215504,0.0013433556,0.000006846418,0.000010658591,5.8755174e-9,0.00003051924,0.000004612869,0.9891527,0.004623471,0.00024707135,0.0044967947],"study_design_scores_gemma":[0.0001506711,0.000021134316,0.0017687493,0.000014521788,0.000011764977,1.5265066e-7,0.000024311536,8.065875e-7,0.99331623,0.00085198117,0.003759115,0.00008056442],"about_ca_topic_score_codex":0.000054165943,"about_ca_topic_score_gemma":3.2783456e-7,"teacher_disagreement_score":0.0048089274,"about_ca_system_score_codex":0.000024828349,"about_ca_system_score_gemma":0.000008581985,"threshold_uncertainty_score":0.9985214},"labels":[],"label_agreement":null},{"id":"W1977819289","doi":"10.1002/adma.201003890","title":"Decoupling Local Disorder and Optical Effects in Infrared Spectra: Differentiating Between Calcites with Different Origins","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Calcium Carbonate Crystallization and Inhibition","field":"Materials Science","cited_by":113,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Memorial University of Newfoundland","funders":"","keywords":"Decoupling (probability); Infrared; Materials science; Optical spectra; Spectral line; Infrared spectroscopy; Crystallite; Calcite; Nanotechnology; Mineralogy; Optics; Physics; Chemistry; Quantum mechanics; Engineering","score_opus":0.005339445796717952,"score_gpt":0.23658348679442995,"score_spread":0.231244040997712,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1977819289","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97189295,0.0000229561,0.027060973,0.000039713228,0.00036674374,0.0003664616,0.000028780978,0.00010142997,0.000120011064],"genre_scores_gemma":[0.99640125,0.000012675799,0.003262554,0.000037451853,0.00012135485,0.000060218797,0.00005494086,0.000033854627,0.000015704452],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99856675,0.000045327397,0.0003689076,0.00039961637,0.00025364768,0.00036573617],"domain_scores_gemma":[0.9993132,0.00020672967,0.000114351235,0.0001888408,0.000056161378,0.00012072712],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001980555,0.0002394827,0.000398646,0.00009552504,0.00009631525,0.00017052234,0.000095170544,0.00011044748,0.0002641258],"category_scores_gemma":[0.00013621748,0.0001839705,0.000020818045,0.000111445355,0.00016437106,0.0003047792,0.000081215796,0.00013657287,0.000008205715],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000065549706,0.000044895172,0.006735864,0.0001030564,0.00000366847,0.0000071033837,0.000081835766,0.00007479741,0.9875768,0.0045806416,0.0000010433627,0.0007247516],"study_design_scores_gemma":[0.0014304566,0.00011084911,0.060447298,0.00012677598,0.00001935425,0.000006546674,0.000049230428,0.00015249591,0.93574125,0.0015702252,0.00007196503,0.00027358622],"about_ca_topic_score_codex":0.000033177206,"about_ca_topic_score_gemma":0.00024108711,"teacher_disagreement_score":0.053711433,"about_ca_system_score_codex":0.000070314185,"about_ca_system_score_gemma":0.000022889568,"threshold_uncertainty_score":0.7502099},"labels":[],"label_agreement":null},{"id":"W1977981930","doi":"10.1002/adma.201304966","title":"Tunable Mesoporous Bilayer Photonic Resins with Chiral Nematic Structures and Actuator Properties","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":108,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"FPInnovations; University of British Columbia","funders":"","keywords":"Materials science; Bilayer; Liquid crystal; Actuator; Mesoporous material; Photonic crystal; Photonics; Nanotechnology; Optoelectronics; Organic chemistry; Membrane","score_opus":0.014348851670545676,"score_gpt":0.25529506675534164,"score_spread":0.24094621508479597,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1977981930","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975475,0.00018638336,0.0003168813,0.00012184783,0.00026473583,0.0008115653,0.00003870738,0.00015452209,0.00055782124],"genre_scores_gemma":[0.9834599,0.000051829124,0.015015033,0.00018925969,0.000086889035,0.00019289617,0.000008334994,0.00006088365,0.0009349943],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974016,0.0001864185,0.0004102935,0.000572546,0.0006889265,0.0007402088],"domain_scores_gemma":[0.99878603,0.0000737243,0.0002100629,0.0005709542,0.00015954551,0.00019970971],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006708822,0.00032425628,0.0004973586,0.000084526895,0.00025227046,0.00031625284,0.00033425778,0.000061942555,0.0008963547],"category_scores_gemma":[0.00049561576,0.00020985884,0.00002114849,0.00011156984,0.00028660442,0.0008919386,0.0002330069,0.00007787245,0.00009309058],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005392133,0.000028193259,0.000011315148,0.00028542578,0.000012187292,0.000008055738,0.00018183874,0.000082564286,0.9974722,0.00093812245,0.00004321877,0.00039766583],"study_design_scores_gemma":[0.0010530779,0.0005302278,0.00019149955,0.0001430867,0.000017032495,0.000028181503,0.00010234888,0.000017323404,0.9880577,0.0072418754,0.002311243,0.0003064535],"about_ca_topic_score_codex":0.00006065915,"about_ca_topic_score_gemma":0.00003250716,"teacher_disagreement_score":0.0146981515,"about_ca_system_score_codex":0.000100229525,"about_ca_system_score_gemma":0.000105486964,"threshold_uncertainty_score":0.9814455},"labels":[],"label_agreement":null},{"id":"W1978278799","doi":"10.1002/adma.200401552","title":"Infrared Quantum Dots","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":549,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Nortel (Canada)","funders":"","keywords":"Quantum dot; Materials science; Optoelectronics; Photoluminescence; Infrared; Nanotechnology; Electroluminescence; Photonics; Optics; Physics","score_opus":0.015436705056802091,"score_gpt":0.24668932286226627,"score_spread":0.2312526178054642,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1978278799","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9911183,0.0006748513,0.000114584574,0.0004227857,0.0010630788,0.00020079334,0.00006232923,0.00027060014,0.0060726567],"genre_scores_gemma":[0.9904995,0.00015356162,0.005932015,0.0004740844,0.00039572723,0.000069631045,0.0000067365618,0.00003680648,0.0024319699],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99837554,0.00010498845,0.0004449582,0.00034538115,0.0003010916,0.00042806473],"domain_scores_gemma":[0.9991787,0.00006195992,0.00015247094,0.00042615004,0.00009190591,0.000088777626],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0005747667,0.00020794704,0.00033856055,0.000052298954,0.00015642903,0.00016455636,0.0003107776,0.000074278374,0.009273822],"category_scores_gemma":[0.00019724047,0.00016125554,0.000043602035,0.00006658318,0.00009166886,0.0006515733,0.000092950366,0.00003981408,0.004048384],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000099856676,0.00003367232,0.000003196622,0.000023196011,0.0000032833473,0.0000029122655,0.00014397349,0.00006578138,0.98872167,0.004886847,0.0014282499,0.004587337],"study_design_scores_gemma":[0.00024839336,0.00004885858,0.00010013016,0.000035515885,0.0000069457765,0.000007699666,0.000039065002,0.000012576233,0.8388242,0.0034519914,0.15700711,0.00021748635],"about_ca_topic_score_codex":0.000015659396,"about_ca_topic_score_gemma":0.0000045800275,"teacher_disagreement_score":0.15557887,"about_ca_system_score_codex":0.000055871606,"about_ca_system_score_gemma":0.0000397799,"threshold_uncertainty_score":0.9967271},"labels":[],"label_agreement":null},{"id":"W1979740902","doi":"10.1002/adma.200401264","title":"Toward the Ultimate Tribological Interface: Surface Chemistry and Nanotribology of Ultrananocrystalline Diamond","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Diamond and Carbon-based Materials Research","field":"Materials Science","cited_by":134,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan","funders":"","keywords":"Nanotribology; Diamond; Nanotechnology; Materials science; Tribology; Nanometre; Silicon; Adhesion; Adhesive wear; Interface (matter); Nanoscopic scale; Atomic force microscopy; Composite material; Optoelectronics","score_opus":0.01459977400694578,"score_gpt":0.280080788205128,"score_spread":0.2654810141981822,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1979740902","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99625534,0.00092108245,0.0003000723,0.0009813817,0.00033474574,0.00038451774,0.00039633695,0.00009236445,0.0003341562],"genre_scores_gemma":[0.995495,0.00056123047,0.0033752595,0.00010419206,0.00014428595,0.00004436078,0.00002456631,0.000030664974,0.00022043886],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99758744,0.00023130074,0.00069670606,0.0004973736,0.00038635568,0.0006008177],"domain_scores_gemma":[0.9986733,0.0003162486,0.00026568832,0.00044196562,0.00017547938,0.00012729189],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012542125,0.00029538007,0.0006370101,0.000020576801,0.00010882024,0.00011360235,0.0005208093,0.0001694878,0.0028030956],"category_scores_gemma":[0.00034937653,0.00019373346,0.000059947528,0.00011818964,0.00059680775,0.00023238803,0.0002306752,0.00010245776,0.0000635103],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004334105,0.000078208395,0.000012437031,0.00017028423,0.000010789582,0.0000065817976,0.00018788865,0.000470901,0.9973438,0.000116286734,0.00010806277,0.001061385],"study_design_scores_gemma":[0.00094941934,0.00011633833,0.00010542826,0.000046442863,0.000020229327,0.000026510525,0.0001491179,0.000026089121,0.994949,0.00046859283,0.0029201237,0.00022272729],"about_ca_topic_score_codex":0.000040217146,"about_ca_topic_score_gemma":0.0000048826905,"teacher_disagreement_score":0.0030751873,"about_ca_system_score_codex":0.00004968521,"about_ca_system_score_gemma":0.000071054805,"threshold_uncertainty_score":0.9981085},"labels":[],"label_agreement":null},{"id":"W1980396681","doi":"10.1002/adma.200500533","title":"Perylene Derivatives with Large Two‐Photon‐Absorption Cross‐Sections for Application in Optical Limiting and Upconversion Lasing","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nonlinear Optical Materials Studies","field":"Engineering","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"","keywords":"Photon upconversion; Perylene; Materials science; Lasing threshold; Two-photon absorption; Absorption (acoustics); Limiting; Fluorescence; Optoelectronics; Saturation (graph theory); Photon; Photochemistry; Two-photon excitation microscopy; Optics; Optical pumping; Laser; Physics; Luminescence; Chemistry","score_opus":0.007603339874655179,"score_gpt":0.2623142406574038,"score_spread":0.2547109007827486,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1980396681","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97400564,0.000058094225,0.024912352,0.00006929803,0.00012758173,0.00047772005,0.00005395779,0.0001682431,0.00012712336],"genre_scores_gemma":[0.93542767,0.00008122152,0.064021066,0.000028951685,0.00016590291,0.00021060005,0.00002021675,0.000035949735,0.00000841012],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991616,0.000014363357,0.00025859143,0.00021501876,0.00007941847,0.00027102677],"domain_scores_gemma":[0.99963754,0.000101094876,0.000041155097,0.00010239013,0.0000803556,0.00003748638],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020548944,0.00014950523,0.00022217941,0.000058305235,0.00011013454,0.00006868659,0.00004080523,0.00005020898,0.000013072868],"category_scores_gemma":[0.00009649436,0.00014004575,0.00001356964,0.00007186372,0.000049290495,0.00034107364,0.000034133525,0.000042766012,0.000008267936],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011175057,0.00002290342,0.00022719096,0.0001344084,0.0000115051125,4.9867276e-7,0.00022146855,0.012608596,0.9843655,0.0009662296,0.0000013219898,0.0013285746],"study_design_scores_gemma":[0.0015049223,0.00006296441,0.0048053456,0.00008576852,0.00001352974,0.0000069579537,0.00018475945,0.0058461167,0.9862307,0.00032012057,0.0007237756,0.00021506801],"about_ca_topic_score_codex":0.0000041865915,"about_ca_topic_score_gemma":0.000044686505,"teacher_disagreement_score":0.039108716,"about_ca_system_score_codex":0.00011648165,"about_ca_system_score_gemma":0.000006910083,"threshold_uncertainty_score":0.57109004},"labels":[],"label_agreement":null},{"id":"W1981433695","doi":"10.1002/adma.200306156","title":"A Multidye Nanostructured Material for Optical Data Storage and Security Data Encryption","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Dendrimers and Hyperbranched Polymers","field":"Materials Science","cited_by":144,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Princess Margaret Cancer Centre; Ontario Institute for Cancer Research; University of Toronto","funders":"","keywords":"Materials science; 3D optical data storage; Encryption; Computer data storage; Optical storage; Data security; Nanotechnology; Energy storage; Cover (algebra); Information storage; Colloid; Photobleaching; Class (philosophy); Computer science; Chemical engineering; Optoelectronics; Computer hardware; Optics; Database; Fluorescence; Computer security; Mechanical engineering; Artificial intelligence","score_opus":0.028551884458785336,"score_gpt":0.29945947038654896,"score_spread":0.27090758592776365,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1981433695","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9820632,0.00019723282,0.0016851139,0.00019238362,0.0038771606,0.00067528745,0.011116904,0.00013074154,0.00006201148],"genre_scores_gemma":[0.9513286,0.000055586894,0.0452418,0.00012128124,0.00047275826,0.000041239764,0.0026665574,0.000044801476,0.00002742391],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99781805,0.00004557592,0.0004287003,0.00096026994,0.0002726033,0.00047481526],"domain_scores_gemma":[0.9979735,0.000051122213,0.00017030147,0.0015962032,0.00006296781,0.0001458779],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006852866,0.00026921963,0.00044053988,0.000046587662,0.0002007635,0.00027866793,0.000977895,0.00014149505,0.00048371186],"category_scores_gemma":[0.00027692367,0.00024194599,0.000019411935,0.000056290857,0.00019236005,0.0013097976,0.0009003669,0.000049087386,0.000041356856],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040503874,0.000037687398,0.0000019591746,0.00009479387,0.000010850797,0.000008558757,0.00015220593,0.000013323693,0.996709,0.0015468661,0.0002581776,0.000761574],"study_design_scores_gemma":[0.0021314316,0.00009595087,0.00014727887,0.000043815446,0.000064711116,0.00003666182,0.000059325466,0.000021209647,0.9849519,0.0034000098,0.00871568,0.00033200192],"about_ca_topic_score_codex":0.00011992719,"about_ca_topic_score_gemma":0.00006334078,"teacher_disagreement_score":0.043556683,"about_ca_system_score_codex":0.000046132653,"about_ca_system_score_gemma":0.00008914344,"threshold_uncertainty_score":0.9866271},"labels":[],"label_agreement":null},{"id":"W1982071630","doi":"10.1002/adma.201404411","title":"Synergistic Doping of Fullerene Electron Transport Layer and Colloidal Quantum Dot Solids Enhances Solar Cell Performance","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":89,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Doping; Quantum dot; Limiting; Materials science; Fullerene; Nanotechnology; Optoelectronics; Layer (electronics); Electron; Computer science; Physics","score_opus":0.010541261628444201,"score_gpt":0.22186546480978245,"score_spread":0.21132420318133824,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1982071630","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974179,0.0005753491,0.0005048018,0.000037392052,0.00061244046,0.00021147293,0.000038169066,0.000070383205,0.00053204823],"genre_scores_gemma":[0.9976441,0.0007623901,0.0011641341,0.000048723436,0.00012667682,0.000048543392,0.000006983331,0.000034457258,0.00016399086],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980703,0.00013525519,0.000602576,0.00041069568,0.0003048571,0.00047628663],"domain_scores_gemma":[0.99910045,0.0001167578,0.00029708608,0.000303596,0.00010443063,0.00007768954],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008892221,0.0002680093,0.0006137086,0.00006393314,0.00018309611,0.000059116028,0.00024297985,0.00008997919,0.00042691923],"category_scores_gemma":[0.00006869095,0.00021212899,0.000042402637,0.00007189383,0.00018057787,0.00036653865,0.000044296765,0.000055203633,0.00004566592],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027750718,0.000038600847,0.00006793763,0.0004970434,0.0000059214717,8.5298166e-7,0.00018101053,0.00013646521,0.99768823,0.0006268977,0.00001371821,0.0004657926],"study_design_scores_gemma":[0.00040411216,0.0004148054,0.0006727444,0.0001775987,0.000032181935,0.0000033129677,0.000045940236,0.00006732436,0.9959519,0.00040655347,0.0015255726,0.0002979457],"about_ca_topic_score_codex":0.00006451899,"about_ca_topic_score_gemma":0.000014498835,"teacher_disagreement_score":0.0017363442,"about_ca_system_score_codex":0.000025292595,"about_ca_system_score_gemma":0.00005158214,"threshold_uncertainty_score":0.8650369},"labels":[],"label_agreement":null},{"id":"W1982184454","doi":"10.1002/adma.201404314","title":"Extremely Stable Platinum Nanoparticles Encapsulated in a Zirconia Nanocage by Area‐Selective Atomic Layer Deposition for the Oxygen Reduction Reaction","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":278,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ballard Power Systems (Canada); Western University","funders":"","keywords":"Nanocages; Materials science; Nanoparticle; Cubic zirconia; Atomic layer deposition; Platinum; Oxygen reduction reaction; Nanotechnology; Catalysis; Deposition (geology); Platinum nanoparticles; Layer (electronics); Chemical engineering; Chemistry; Ceramic; Metallurgy; Physical chemistry; Organic chemistry; Electrochemistry","score_opus":0.009447953024521573,"score_gpt":0.2229496957343183,"score_spread":0.21350174270979674,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1982184454","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967107,0.000120992365,0.0015352136,0.00014472807,0.00051830534,0.00052629755,0.000010822166,0.00015668159,0.000276264],"genre_scores_gemma":[0.998199,0.00005706578,0.000626387,0.00005863235,0.00009597453,0.00034067285,0.00020011919,0.000055869983,0.0003662939],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983159,0.00015727626,0.00042824226,0.00042228028,0.00023456267,0.00044175438],"domain_scores_gemma":[0.9990625,0.00014799196,0.00026012564,0.00030870995,0.0001742005,0.000046472913],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005855208,0.00022814945,0.00028033863,0.000094423536,0.00022349738,0.000057869696,0.00014819637,0.00013982711,0.00005213303],"category_scores_gemma":[0.00018487191,0.000193005,0.00005042991,0.00026076258,0.00003826588,0.00058709696,0.000028694143,0.00007998954,0.000026215512],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007243886,0.000044994253,0.0000047747085,0.000017726821,0.00003602829,5.765704e-7,0.00015498705,0.0014186667,0.99081755,0.0014469627,0.00029428586,0.005039058],"study_design_scores_gemma":[0.0013574653,0.00015237153,0.00020302874,0.000045247143,0.000047013225,0.000014331743,0.00008946393,0.0007387402,0.9888945,0.0039397758,0.004286655,0.00023141438],"about_ca_topic_score_codex":0.001607339,"about_ca_topic_score_gemma":0.0006245949,"teacher_disagreement_score":0.004807644,"about_ca_system_score_codex":0.00049360306,"about_ca_system_score_gemma":0.000039991795,"threshold_uncertainty_score":0.78705156},"labels":[],"label_agreement":null},{"id":"W1982296349","doi":"10.1002/adma.201200682","title":"Grafted Crystalline Poly‐Perfluoroacrylate Structures for Superhydrophobic and Oleophobic Functional Coatings","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Surface Modification and Superhydrophobicity","field":"Materials Science","cited_by":82,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Materials science; Crystallinity; Grafting; Polymer; Amorphous solid; Chemical engineering; Chemical vapor deposition; Deposition (geology); Silicon; Nanotechnology; Polymer chemistry; Composite material; Organic chemistry; Chemistry; Metallurgy","score_opus":0.022375609706974976,"score_gpt":0.2552616044391356,"score_spread":0.23288599473216062,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1982296349","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9923568,0.0011096118,0.003748664,0.00015592253,0.0014304994,0.00062138296,0.0003002923,0.0002136724,0.00006316299],"genre_scores_gemma":[0.9860787,0.000054400454,0.012432444,0.00040159008,0.00031516005,0.00018052496,0.0001207105,0.000053861324,0.00036265745],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99790233,0.000104899016,0.00052871485,0.0004778356,0.0003267244,0.00065947446],"domain_scores_gemma":[0.99889266,0.00016860384,0.00016500158,0.0003487988,0.00018709176,0.00023782576],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000726663,0.0003265553,0.00044054366,0.00008693595,0.00033982552,0.00013742443,0.00016744608,0.00013847981,0.0020314613],"category_scores_gemma":[0.00019968284,0.0002865598,0.00006236419,0.00011746244,0.00017339752,0.00063221017,0.00008921321,0.00006680076,0.00009115869],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026682325,0.00005174782,0.00017171596,0.00005990526,0.0000074105956,5.707722e-7,0.00031959792,0.00007488231,0.9970447,0.001407059,0.00014553752,0.00045004586],"study_design_scores_gemma":[0.001140262,0.000078262594,0.0044069802,0.000015312959,0.000028981935,0.000035682246,0.00014032282,0.00004159787,0.98711514,0.0015869866,0.0050394284,0.0003710324],"about_ca_topic_score_codex":0.0000620389,"about_ca_topic_score_gemma":0.000005507683,"teacher_disagreement_score":0.009929554,"about_ca_system_score_codex":0.0000856457,"about_ca_system_score_gemma":0.00004432036,"threshold_uncertainty_score":0.99995863},"labels":[],"label_agreement":null},{"id":"W1982702301","doi":"10.1002/adma.200501639","title":"Organic Light‐Emitting Transistors Based on Solution‐Cast and Vacuum‐Sublimed Films of a Rigid Core Thiophene Oligomer","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":95,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"","keywords":"Materials science; Oligomer; Thiophene; Electroluminescence; Organic semiconductor; Transistor; Organic field-effect transistor; Core (optical fiber); Supramolecular chemistry; Optoelectronics; Polymer chemistry; Chemical engineering; Nanotechnology; Field-effect transistor; Molecule; Organic chemistry; Composite material; Voltage; Layer (electronics); Chemistry","score_opus":0.006304257769694965,"score_gpt":0.19934109431647587,"score_spread":0.19303683654678092,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1982702301","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997744,0.00049110205,0.0004269459,0.0001301437,0.00033645576,0.00020667746,0.000057593625,0.0001733041,0.00043374934],"genre_scores_gemma":[0.9969655,0.00019084275,0.002501751,0.00011263031,0.00007848148,0.0000149916605,0.000018225397,0.00006731375,0.000050246897],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989093,0.000017587834,0.00036772055,0.00020549553,0.00017048704,0.00032939317],"domain_scores_gemma":[0.9994955,0.0000561067,0.00007909627,0.00024404576,0.000050976556,0.0000742877],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019937147,0.00021419692,0.00033474035,0.00008265532,0.00006560252,0.000021180509,0.00010905152,0.00010362503,0.0005323226],"category_scores_gemma":[0.000028917897,0.00020987402,0.00003773846,0.00016354735,0.000023090442,0.00011565329,0.000014309237,0.00009934238,0.000016995902],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000387678,0.00002557838,0.0000086743075,0.00009983367,0.000021906953,0.0000012813438,0.00013929153,0.0014440072,0.99755937,0.00015700293,0.00019321959,0.00031106122],"study_design_scores_gemma":[0.00069824624,0.00010137633,0.000070341775,0.000071309296,0.000026875365,0.0000043664627,0.000012692348,0.0015419178,0.9934585,0.0001451493,0.0036491242,0.00022008814],"about_ca_topic_score_codex":0.0000058462015,"about_ca_topic_score_gemma":0.000018896075,"teacher_disagreement_score":0.0041008624,"about_ca_system_score_codex":0.00009168045,"about_ca_system_score_gemma":0.00003608895,"threshold_uncertainty_score":0.8558414},"labels":[],"label_agreement":null},{"id":"W1983991339","doi":"10.1002/adma.200900235","title":"Graphite‐Grafted Silicon Nanocomposite as a Negative Electrode for Lithium‐Ion Batteries","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":129,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal","funders":"Agence de l'Environnement et de la Maîtrise de l'Energie","keywords":"Nanocomposite; Graphite; Materials science; Lithium (medication); Silicon; Gravimetric analysis; Electrode; Nanotechnology; Battery (electricity); Lithium-ion battery; Chemical engineering; Composite material; Organic chemistry; Optoelectronics; Power (physics); Chemistry","score_opus":0.006826289996055981,"score_gpt":0.24867079309375428,"score_spread":0.2418445030976983,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1983991339","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9902043,0.00014758071,0.0048772804,0.00026395303,0.0016434261,0.0013407497,0.00018120222,0.00084900105,0.0004925229],"genre_scores_gemma":[0.9838649,0.00013982526,0.013785231,0.00094580586,0.00030116193,0.0004823283,0.0001426023,0.0001011175,0.00023701646],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99799407,0.00006157684,0.0006275889,0.00042906604,0.00021971944,0.00066798506],"domain_scores_gemma":[0.9990922,0.00010913236,0.00014665473,0.00043833573,0.00012385116,0.000089794106],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00021955986,0.0004497637,0.00059370016,0.00015479975,0.00014275381,0.00012277592,0.00026639088,0.00012607164,0.00023994072],"category_scores_gemma":[0.0001047576,0.00045865812,0.00006217825,0.00018286974,0.00005917519,0.0006671094,0.000032760934,0.00006991077,0.0000806489],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004021533,0.000031897358,0.0000033239685,0.00009792661,0.00003993043,0.000004183748,0.00019612383,0.0010422879,0.9947031,0.0010904263,0.0005012078,0.0018874168],"study_design_scores_gemma":[0.001071798,0.0004228192,0.00028314453,0.000101101534,0.00003052988,0.000013429685,0.000026621972,0.000010122577,0.9617257,0.028017823,0.0078063016,0.00049058464],"about_ca_topic_score_codex":0.000004814643,"about_ca_topic_score_gemma":0.0000021865103,"teacher_disagreement_score":0.0329774,"about_ca_system_score_codex":0.00013467,"about_ca_system_score_gemma":0.000014701654,"threshold_uncertainty_score":0.9997865},"labels":[],"label_agreement":null},{"id":"W1987030588","doi":"10.1002/adma.200400794","title":"Dual‐Mode Switching of Diffraction Gratings Based on Azobenzene‐ Polymer‐Stabilized Liquid Crystals","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Université de Sherbrooke","funders":"","keywords":"Azobenzene; Photoisomerization; Materials science; Liquid crystal; Diffraction; Diffraction efficiency; Polymer; Diffraction grating; Optics; Optoelectronics; Electric field; Phase (matter); Grating; Isomerization; Organic chemistry; Composite material; Chemistry","score_opus":0.013709065265977637,"score_gpt":0.30834265010631007,"score_spread":0.2946335848403324,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1987030588","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99420595,0.00008401439,0.0028774547,0.0003877773,0.00062835886,0.000743218,0.00022074161,0.00021029064,0.00064218114],"genre_scores_gemma":[0.9900561,0.00003971782,0.008902729,0.0003302912,0.00022928166,0.00016938604,0.000027243022,0.00008025555,0.0001650051],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957906,0.00032030258,0.001052526,0.0007206756,0.0012830404,0.00083286176],"domain_scores_gemma":[0.9976111,0.00039200817,0.00066679803,0.0008107667,0.00029686332,0.00022243081],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012007257,0.00040646968,0.000676254,0.00022217144,0.0002178763,0.00012635176,0.00040238784,0.00011305234,0.0029023516],"category_scores_gemma":[0.0010515191,0.00036436674,0.00010435081,0.00023230955,0.00007762046,0.0012486692,0.00018306439,0.00013326292,0.0001686415],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0026068795,0.00025658737,0.0000044278927,0.0001024756,0.000008318775,0.0000059253584,0.00012592183,0.0040133996,0.99060816,0.0004499545,0.000029483635,0.0017884483],"study_design_scores_gemma":[0.0017830587,0.00088572706,0.000051999097,0.00021774552,0.000014254175,0.0000033174783,0.0000756957,0.00026228096,0.99480814,0.0003002612,0.001249433,0.0003480959],"about_ca_topic_score_codex":0.00009910803,"about_ca_topic_score_gemma":0.00003242485,"teacher_disagreement_score":0.006025274,"about_ca_system_score_codex":0.00034211026,"about_ca_system_score_gemma":0.0001621616,"threshold_uncertainty_score":0.99988085},"labels":[],"label_agreement":null},{"id":"W1987595906","doi":"10.1002/adma.200306557","title":"Recent Advances in Hydrogen Storage in Metal‐Containing Inorganic Nanostructures and Related Materials","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Hydrogen Storage and Materials","field":"Materials Science","cited_by":465,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"","keywords":"Materials science; Hydrogen storage; Carbon nanotube; Boron nitride; Nanotechnology; Nanostructure; Energy storage; Lithium (medication); Porosity; Sorption; Carbon fibers; Graphitic carbon nitride; Composite number; Chemical engineering; Composite material; Adsorption; Catalysis; Organic chemistry; Alloy","score_opus":0.007127677659574739,"score_gpt":0.24562641949405092,"score_spread":0.2384987418344762,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1987595906","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98948693,0.0069806837,0.000008681348,0.00012056938,0.0020025673,0.0008672644,0.00016492627,0.00018159143,0.00018679962],"genre_scores_gemma":[0.99320483,0.005210581,0.0009883391,0.00017189176,0.00008143889,0.00015951265,0.000059755497,0.00008790473,0.000035726796],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99585855,0.00041550986,0.0014426875,0.00095313106,0.0004121652,0.0009179537],"domain_scores_gemma":[0.9986815,0.00007424544,0.00048118443,0.00051352015,0.00008436845,0.0001651872],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0017212986,0.0005442371,0.0011682397,0.00034304423,0.00013604223,0.00019175661,0.00039877326,0.00024003554,0.002397628],"category_scores_gemma":[0.00042507012,0.0005062271,0.00003930506,0.00041059425,0.00016897297,0.0015330851,0.00027068742,0.00012962396,0.00017362763],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002660246,0.000060477385,0.000037867398,0.0000955228,0.000009229223,0.00027664294,0.00085067656,0.00094244065,0.9948298,0.0012172088,0.0000015485165,0.0014125963],"study_design_scores_gemma":[0.002576734,0.00015364734,0.0005758088,0.00023624799,0.000021785569,0.000106787265,0.00021586184,3.1823708e-7,0.9778495,0.015128198,0.002564842,0.0005702999],"about_ca_topic_score_codex":0.00023293303,"about_ca_topic_score_gemma":0.0004199573,"teacher_disagreement_score":0.016980296,"about_ca_system_score_codex":0.00037652446,"about_ca_system_score_gemma":0.00014445785,"threshold_uncertainty_score":0.99973893},"labels":[],"label_agreement":null},{"id":"W1987790016","doi":"10.1002/1521-4095(200008)12:15<1129::aid-adma1129>3.0.co;2-a","title":"Formation of a Buried Lateral Density Grating in Azobenzene Polymer Films","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; Royal Military College of Canada","funders":"","keywords":"Azobenzene; Materials science; Grating; Polymer; Annealing (glass); Polarization (electrochemistry); Optics; Inscribed figure; Optoelectronics; Composite material","score_opus":0.0140543434859347,"score_gpt":0.2867094028291891,"score_spread":0.2726550593432544,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1987790016","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99847114,0.000055631248,0.00027384845,0.000047028512,0.00017976601,0.00036700087,0.000097108976,0.000053047945,0.00045541738],"genre_scores_gemma":[0.9942558,0.000039199058,0.0051883115,0.000068651745,0.000035865374,0.000057620593,0.000029933251,0.000019973364,0.0003046849],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979991,0.00013848318,0.00063382904,0.00027811533,0.00047025934,0.00048023407],"domain_scores_gemma":[0.99928886,0.000051894647,0.00017914969,0.00030276072,0.00010006414,0.00007728598],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006010252,0.00016619121,0.0003417657,0.00009096805,0.0000674849,0.000056404806,0.00022987096,0.000054568533,0.005893352],"category_scores_gemma":[0.00014414679,0.00015255649,0.000029922063,0.00017172101,0.000059902475,0.0011659071,0.00008640587,0.000051682226,0.00010083489],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041926562,0.000050653227,0.00003464718,0.00007117668,0.0000018195168,0.0000099489325,0.00020677004,0.0012661966,0.9967936,0.00009031956,0.000019751906,0.0010358206],"study_design_scores_gemma":[0.0008739974,0.000112406095,0.00033011776,0.000102507605,0.0000029879047,0.0000056269873,0.000043754913,0.000101670055,0.99754965,0.0006302282,0.00009733567,0.00014970217],"about_ca_topic_score_codex":0.00018803665,"about_ca_topic_score_gemma":0.00003514445,"teacher_disagreement_score":0.005792517,"about_ca_system_score_codex":0.0000834163,"about_ca_system_score_gemma":0.000038529437,"threshold_uncertainty_score":0.9950154},"labels":[],"label_agreement":null},{"id":"W1987882618","doi":"10.1002/adma.200802244","title":"The Digital Revolution: A New Paradigm for Microfluidics","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrowetting and Microfluidic Technologies","field":"Engineering","cited_by":379,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of New Brunswick","funders":"Canada Research Chairs","keywords":"Microfluidics; Digital microfluidics; Nanotechnology; Digital Revolution; Key (lock); Materials science; Computer science; Telecommunications; Optoelectronics; Electrowetting","score_opus":0.00987052883789095,"score_gpt":0.20746458186392994,"score_spread":0.197594053026039,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1987882618","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9261337,0.03702373,0.030080885,0.0010098472,0.0016230758,0.00066547596,0.000104889354,0.0026896307,0.0006687557],"genre_scores_gemma":[0.985642,0.009942697,0.002746713,0.000038602437,0.00020560923,0.000085895736,0.000020415648,0.000046966867,0.0012710645],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992989,0.000004062564,0.00019765492,0.000121923156,0.0000636717,0.0003137978],"domain_scores_gemma":[0.9996031,0.0000784173,0.000029057248,0.00023823533,0.0000206475,0.000030525534],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000075360025,0.00012379093,0.00014116202,0.000021395179,0.00020716574,0.000046283894,0.00017636166,0.00006560149,0.000004124766],"category_scores_gemma":[0.00013246857,0.00009599218,0.000037520567,0.00006890688,0.000065447864,0.0001152778,0.000021740736,0.000045814177,0.000027556252],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001754903,0.0000026372488,0.0000029742962,0.000014150885,0.000014542362,0.000001683849,0.000030241574,0.000010304268,0.91705596,0.0016963847,0.062340926,0.018812634],"study_design_scores_gemma":[0.00017578137,0.000026524047,0.000014450801,0.000009782268,0.0000029802911,0.00003191058,0.000009711278,8.4602317e-7,0.61302876,0.0034793532,0.38313732,0.00008259199],"about_ca_topic_score_codex":0.0000021568533,"about_ca_topic_score_gemma":4.087449e-7,"teacher_disagreement_score":0.3207964,"about_ca_system_score_codex":0.000058138925,"about_ca_system_score_gemma":0.000031375446,"threshold_uncertainty_score":0.39144474},"labels":[],"label_agreement":null},{"id":"W1987956937","doi":"10.1002/adma.200702431","title":"Visualization of Stacking Faults and their Formation in Colloidal Photonic Crystal Films","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Stacking; Crystallization; Colloid; Materials science; Impurity; Colloidal crystal; Lattice (music); Photonic crystal; Visualization; Crystallography; Spectral line; Nanotechnology; Chemical physics; Optoelectronics; Computer science; Chemistry; Physics; Physical chemistry; Nuclear magnetic resonance; Organic chemistry; Data mining","score_opus":0.01097939882842571,"score_gpt":0.2585932174409059,"score_spread":0.2476138186124802,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1987956937","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99485916,0.000023521447,0.0040145065,0.000006260238,0.00003189902,0.00027459537,0.00016110916,0.00001258656,0.0006163432],"genre_scores_gemma":[0.99936765,0.000028835266,0.0003708274,0.000007179998,0.000014805632,0.00006940144,0.00010606218,0.000008913289,0.00002634826],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9994387,0.000017278464,0.00025786622,0.00011175002,0.000060177805,0.00011424378],"domain_scores_gemma":[0.9996722,0.000023863739,0.00014325691,0.00009710538,0.00004271423,0.000020887397],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000074293355,0.00008314253,0.00016363904,0.00003736697,0.00006180962,0.000008882265,0.000044155895,0.000019231895,0.00013412356],"category_scores_gemma":[0.0000043416994,0.00007523242,0.00001695018,0.000092121365,0.000031511758,0.00023183023,0.000026848018,0.0000196326,0.0000012606602],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001737429,0.000038951097,0.0002846757,0.000017347184,0.000003817551,1.6636565e-7,0.0006301182,0.00014087807,0.9958667,0.0026391412,0.000009726427,0.00035108277],"study_design_scores_gemma":[0.0005636851,0.000021523103,0.0012085988,0.000032272794,0.0000021910819,0.0000022817635,0.0005077787,0.00023812296,0.9949843,0.0018330509,0.00052135857,0.00008480594],"about_ca_topic_score_codex":0.000066373665,"about_ca_topic_score_gemma":0.0000071276772,"teacher_disagreement_score":0.004508448,"about_ca_system_score_codex":0.000014400165,"about_ca_system_score_gemma":0.000019617783,"threshold_uncertainty_score":0.3067889},"labels":[],"label_agreement":null},{"id":"W1988314128","doi":"10.1002/adma.200304429","title":"Refractive Index Patterns in Silicon Inverted Colloidal Photonic Crystals","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photonic crystal; Refractive index; Optoelectronics; Photonics; Micrometer; Amorphous solid; Colloidal crystal; Photonic integrated circuit; Laser; Optics; Colloid","score_opus":0.0077768169017191895,"score_gpt":0.25589097264196264,"score_spread":0.24811415574024345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1988314128","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9922714,0.000016584994,0.0006897458,0.000031760563,0.00013195543,0.00054605,0.00027432936,0.00003200672,0.006006146],"genre_scores_gemma":[0.9989589,0.000010718986,0.00014032058,0.00007557018,0.000034492394,0.00042807226,0.000054015916,0.000026391583,0.00027150937],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987858,0.00007278981,0.00035419568,0.00032584937,0.00013099716,0.000330379],"domain_scores_gemma":[0.999342,0.00005636307,0.0001643896,0.0003119301,0.000054611864,0.00007070317],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00019013812,0.00018561583,0.00030457028,0.000059002767,0.00007363666,0.000050528935,0.00012495735,0.00004835194,0.0022348817],"category_scores_gemma":[0.000017499658,0.0001862296,0.000045192766,0.0001716861,0.000029926578,0.00020751677,0.000033901182,0.00009207741,0.000037698534],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028460543,0.00014718613,0.0052282684,0.000010678129,0.000019671039,0.000002113399,0.000111487745,0.00009377059,0.985446,0.00820343,0.000039477774,0.0006694775],"study_design_scores_gemma":[0.0012288181,0.000026259875,0.0047703395,0.000038259695,0.0000085953925,0.0000015927259,0.0004502381,0.000013436836,0.9694787,0.013309699,0.010413464,0.00026056304],"about_ca_topic_score_codex":0.0003696189,"about_ca_topic_score_gemma":0.000048278915,"teacher_disagreement_score":0.015967244,"about_ca_system_score_codex":0.00008381904,"about_ca_system_score_gemma":0.0000894761,"threshold_uncertainty_score":0.9986772},"labels":[],"label_agreement":null},{"id":"W1988561226","doi":"10.1002/adma.200590094","title":"Cover Picture: Crosslinked Nanoparticle Stripes and Hexagonal Networks Obtained via Selective Patterning of Block Copolymer Thin Films (Adv. Mater. 18/2005)","year":2005,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Block Copolymer Self-Assembly","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada","funders":"","keywords":"Copolymer; Materials science; Nanoparticle; Thin film; Polystyrene; Nanotechnology; Template; Hexagonal crystal system; Terpyridine; Methyl methacrylate; Self-assembly; Nanostructure; Methacrylate; Chemical engineering; Polymer chemistry; Composite material; Crystallography; Metal; Polymer; Chemistry","score_opus":0.007889668758617003,"score_gpt":0.25286965601225475,"score_spread":0.24497998725363776,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1988561226","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98257726,0.0056808367,0.0010526977,0.0000847965,0.0060574897,0.0012907676,0.0014493241,0.000232846,0.0015739935],"genre_scores_gemma":[0.9848788,0.00039999653,0.0021054738,0.00054448756,0.0010591104,0.00023340897,0.00033435834,0.00024570982,0.010198683],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99349093,0.0005543355,0.0018382618,0.0015313998,0.0009164935,0.0016685661],"domain_scores_gemma":[0.99623215,0.00035992538,0.0017190011,0.0009246821,0.00041233253,0.00035189162],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0008778404,0.001222963,0.002112445,0.00021397712,0.00040821926,0.00037556642,0.00083115714,0.0008870751,0.018727802],"category_scores_gemma":[0.00009433315,0.0011504636,0.00016633533,0.00029794863,0.0004305787,0.0007236643,0.0005595401,0.00043619,0.001345229],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00081535056,0.00014560489,0.000019408028,0.00031370678,0.00013617233,0.000015108472,0.00033805252,0.0069145155,0.97243404,0.000015931344,0.0185533,0.00029877733],"study_design_scores_gemma":[0.0021062451,0.00028181088,0.00021049425,0.00042874255,0.00019439019,0.000073490315,0.0000605777,0.0003175004,0.99008167,0.000053815453,0.005033684,0.0011575873],"about_ca_topic_score_codex":0.0003056522,"about_ca_topic_score_gemma":0.000050262242,"teacher_disagreement_score":0.017647589,"about_ca_system_score_codex":0.00022843793,"about_ca_system_score_gemma":0.00035774958,"threshold_uncertainty_score":0.9994323},"labels":[],"label_agreement":null},{"id":"W1988843861","doi":"10.1002/(sici)1521-4095(200004)12:8<599::aid-adma599>3.0.co;2-8","title":"Electropolymerization of Oligothienylferrocene Complexes","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Conjugated system; Materials science; Polymer; Monomer; Nanotechnology; Polymer science; Thin film; Metal; Conductive polymer; Polymer chemistry; Chemical engineering; Composite material","score_opus":0.008805286594414466,"score_gpt":0.2552360711153955,"score_spread":0.24643078452098102,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1988843861","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974766,0.000136154,0.0002934477,0.000100285804,0.00013682067,0.00013630804,0.0000658305,0.00008914587,0.0015654385],"genre_scores_gemma":[0.9964861,0.00007339305,0.0027318087,0.00007665396,0.000059581,0.000031473814,0.000024457586,0.000015532423,0.00050096057],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99913734,0.000030508121,0.00029651442,0.00019587476,0.00014451687,0.0001952152],"domain_scores_gemma":[0.99953157,0.000024142224,0.00011631405,0.00024056922,0.000050872728,0.000036533555],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011319791,0.00009814525,0.00019845512,0.000031673666,0.000090034235,0.00002416557,0.00015273402,0.00003134412,0.011140916],"category_scores_gemma":[0.000020038553,0.000091911876,0.000022602586,0.00013988557,0.00008833692,0.00014571231,0.00001648608,0.00001829125,0.0001727263],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003097458,0.000029569965,0.000003400097,0.000012930264,0.0000018526167,1.9481259e-7,0.00006380404,0.00003546011,0.9920802,0.0011912353,0.000052218733,0.006498166],"study_design_scores_gemma":[0.00018255212,0.000038469032,0.00012860593,0.0000138890855,0.0000074293116,0.000003939684,0.000023210658,0.0000012940933,0.9957719,0.0008526842,0.0028751092,0.000100942205],"about_ca_topic_score_codex":0.00008005785,"about_ca_topic_score_gemma":0.0000030008155,"teacher_disagreement_score":0.010968189,"about_ca_system_score_codex":0.000014220174,"about_ca_system_score_gemma":0.000024778776,"threshold_uncertainty_score":0.989763},"labels":[],"label_agreement":null},{"id":"W1989397798","doi":"10.1002/adma.200502675","title":"A Volume Holographic Sol‐Gel Material with Large Enhancement of Dynamic Range by Incorporation of High Refractive Index Species","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photorefractive and Nonlinear Optics","field":"Physics and Astronomy","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute for Microstructural Sciences","funders":"Ministerio de Economía y Competitividad","keywords":"Refractive index; Holography; Materials science; Volume (thermodynamics); Index (typography); Diffraction; Interference (communication); Range (aeronautics); Optics; Sol-gel; Scattering; High-refractive-index polymer; Analytical Chemistry (journal); Optoelectronics; Nanotechnology; Computer science; Chromatography; Physics; Telecommunications; Composite material; Chemistry; Channel (broadcasting); Thermodynamics","score_opus":0.003215318608888314,"score_gpt":0.21834255427218058,"score_spread":0.21512723566329225,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1989397798","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98611677,0.000013272567,0.010369553,0.00001591356,0.00019010933,0.00033431483,0.0024378763,0.000012930486,0.0005092798],"genre_scores_gemma":[0.9961047,0.000010438442,0.0024093932,0.000007790672,0.00010746949,0.000056695037,0.0009443791,0.000023552655,0.000335587],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989223,0.000052259213,0.00039803644,0.00021903658,0.00019917126,0.00020919241],"domain_scores_gemma":[0.9989228,0.000022385948,0.000627799,0.00021191918,0.00019180345,0.000023246905],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014344801,0.00018027688,0.00040636447,0.00006696969,0.000046113066,0.00001849259,0.000097178025,0.00004810223,0.00061983784],"category_scores_gemma":[0.000003501775,0.00015439323,0.000039319963,0.00010185876,0.00009796385,0.0002694004,0.000040188657,0.000049316408,0.0000054804063],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007168581,0.0003669944,0.0032431523,0.000029304549,0.000056062247,8.6717375e-7,0.000038586215,0.0000071990457,0.99472016,0.0005943784,0.000083292856,0.0001431427],"study_design_scores_gemma":[0.0012701481,0.00027979148,0.0116895065,0.000039000235,0.000035949677,2.810389e-7,0.00008545571,0.000010606034,0.9827948,0.0030428367,0.0005861595,0.00016544884],"about_ca_topic_score_codex":0.000512465,"about_ca_topic_score_gemma":0.000027740774,"teacher_disagreement_score":0.011925346,"about_ca_system_score_codex":0.00003056355,"about_ca_system_score_gemma":0.000035946923,"threshold_uncertainty_score":0.67867893},"labels":[],"label_agreement":null},{"id":"W1991583773","doi":"10.1002/adma.200600930","title":"Cookie‐like Au/NiO Nanoparticles with Optical Gas‐Sensing Properties","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gas Sensing Nanomaterials and Sensors","field":"Engineering","cited_by":139,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada","funders":"Ministero dell'Università e della Ricerca","keywords":"Materials science; Non-blocking I/O; Nanoparticle; Nanotechnology; Catalysis; Organic chemistry","score_opus":0.009480878409599507,"score_gpt":0.19130339172347555,"score_spread":0.18182251331387603,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1991583773","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960918,0.00007010669,0.00071096426,0.000038338352,0.0012657072,0.0002507018,0.0000066534944,0.0005793243,0.000986428],"genre_scores_gemma":[0.9870216,0.000021557018,0.01252843,0.000059247042,0.0002001217,0.000002933244,0.0000057044276,0.00008842564,0.00007197803],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99837214,0.000026524713,0.00043226598,0.00024985892,0.00024300865,0.0006762233],"domain_scores_gemma":[0.99939287,0.00004472066,0.000053002248,0.00028010592,0.000093962924,0.00013532683],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003653917,0.0002804224,0.00039047512,0.00006989998,0.00011547532,0.000114737355,0.000086031156,0.00008895275,0.0000360126],"category_scores_gemma":[0.000044520762,0.0002178035,0.000028285902,0.00010702581,0.00011966484,0.00020726642,0.00002792492,0.000054144635,0.0000851338],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020565373,0.000013857364,0.000014076974,0.0000768095,0.000023801456,0.000081437516,0.00024232047,0.0031286562,0.99361354,0.00013974433,0.00003369521,0.0024264003],"study_design_scores_gemma":[0.0005038765,0.000094606265,0.00060233544,0.00013545524,0.000023179608,0.0001101816,0.00014552768,0.00009819909,0.9963585,0.00006768684,0.0015286326,0.00033182386],"about_ca_topic_score_codex":0.000038236496,"about_ca_topic_score_gemma":0.00008260956,"teacher_disagreement_score":0.011817466,"about_ca_system_score_codex":0.0001283768,"about_ca_system_score_gemma":0.000026951597,"threshold_uncertainty_score":0.8881769},"labels":[],"label_agreement":null},{"id":"W1991872802","doi":"10.1002/adma.200903589","title":"Multiple NaNbO<sub>3</sub>/Nb<sub>2</sub>O<sub>5</sub> Heterostructure Nanotubes: A New Class of Ferroelectric/Semiconductor Nanomaterials","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ferroelectric and Piezoelectric Materials","field":"Materials Science","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Plasmionique (Canada); McGill University; Institut National de la Recherche Scientifique","funders":"","keywords":"Materials science; Ferroelectricity; Nanomaterials; Heterojunction; Semiconductor; Nanotechnology; Piezoelectricity; Nanotube; Optoelectronics; Carbon nanotube; Dielectric; Composite material","score_opus":0.008361608201420682,"score_gpt":0.221664967184174,"score_spread":0.21330335898275332,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1991872802","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97985685,0.0005139729,0.00040798253,0.00014432996,0.013264497,0.0030428858,0.0016952654,0.0009719874,0.00010220124],"genre_scores_gemma":[0.99243915,0.00105322,0.0022818686,0.00051430264,0.0021911613,0.0005170744,0.0004524354,0.0004860501,0.00006471008],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.98682004,0.0010980081,0.0039787414,0.0028507176,0.0018626164,0.003389845],"domain_scores_gemma":[0.99177,0.00088262145,0.002790601,0.0025712964,0.00096216914,0.0010232906],"candidate_categories":["metaepi_narrow","research_integrity","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.0025225144,0.0022214882,0.0037579085,0.0008365079,0.0007307676,0.00085813494,0.0021775246,0.0016106787,0.00093822065],"category_scores_gemma":[0.0028156515,0.0020706325,0.0005778282,0.0014804167,0.0006010056,0.0018209706,0.0006296384,0.00071005477,0.00088580645],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001976967,0.00027340776,0.000044170018,0.00058231835,0.00013925107,0.0000745461,0.0004119906,0.000043608154,0.98568124,0.0003378038,0.0029288083,0.0075059],"study_design_scores_gemma":[0.0039694835,0.0009613907,0.00045281005,0.00027205044,0.0002479754,0.00038775257,0.000042956595,0.00002328772,0.98712516,0.0025676428,0.0017329258,0.0022165645],"about_ca_topic_score_codex":0.00015154808,"about_ca_topic_score_gemma":0.00019209362,"teacher_disagreement_score":0.012582299,"about_ca_system_score_codex":0.0004560446,"about_ca_system_score_gemma":0.0012561257,"threshold_uncertainty_score":0.9999751},"labels":[],"label_agreement":null},{"id":"W1992636709","doi":"10.1002/adma.200903420","title":"A Thermally Stable Semiconducting Polymer","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":169,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Materials science; Annealing (glass); Polymer; X-ray photoelectron spectroscopy; Thermal stability; Absorption spectroscopy; Transistor; Absorption (acoustics); Optoelectronics; Chemical engineering; Analytical Chemistry (journal); Organic chemistry; Optics; Electrical engineering; Composite material; Chemistry; Physics","score_opus":0.006521096097059618,"score_gpt":0.2111339840807369,"score_spread":0.20461288798367727,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1992636709","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99421024,0.0010214992,0.00009246565,0.00003836812,0.0003817048,0.00009009981,0.000013484569,0.00030285976,0.0038492663],"genre_scores_gemma":[0.99890965,0.0001549217,0.00033884778,0.00015752461,0.00010450485,0.000004754863,0.0000068055433,0.00002900568,0.00029399444],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993492,0.000008237715,0.00016087989,0.00010703834,0.000080477716,0.00029420757],"domain_scores_gemma":[0.99974555,0.000011021634,0.000024332947,0.00016199044,0.000019769795,0.000037363312],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009865664,0.00011617618,0.00014599468,0.00002232001,0.000037813374,0.00003668943,0.00008979626,0.000045369845,0.00040376282],"category_scores_gemma":[0.000009881546,0.00011416172,0.00001719232,0.00006875002,0.0000052798537,0.00015151339,0.000008420045,0.0000589226,0.000041095955],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000043367354,0.0000066709936,9.569945e-7,0.00000948132,0.0000073695182,0.0000019298272,0.000055051372,0.0003009962,0.9973613,0.0008548402,0.00014055683,0.0012564837],"study_design_scores_gemma":[0.00015524478,0.000032285043,0.000017637863,0.000012837969,0.000004968793,0.0000063814327,0.000012696842,0.000022233677,0.9945042,0.0014891119,0.0035987687,0.00014362115],"about_ca_topic_score_codex":0.000004994291,"about_ca_topic_score_gemma":0.0000018338404,"teacher_disagreement_score":0.0046993885,"about_ca_system_score_codex":0.00004750144,"about_ca_system_score_gemma":0.000014677588,"threshold_uncertainty_score":0.465538},"labels":[],"label_agreement":null},{"id":"W1992762666","doi":"10.1002/adma.200702941","title":"Reversal of Flux Closure States in Cobalt Nanoparticle Rings With Coaxial Magnetic Pulses","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Magnetic properties of thin films","field":"Physics and Astronomy","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Materials science; Bistability; Coaxial; Nanoparticle; Micromagnetics; Magnetic flux; Cobalt; Flux (metallurgy); Closure (psychology); Magnetic field; Condensed matter physics; Magnetic nanoparticles; Nanotechnology; Optoelectronics; Magnetization; Physics; Electrical engineering","score_opus":0.006371711818036727,"score_gpt":0.20144112616102228,"score_spread":0.19506941434298555,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1992762666","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982471,0.00009727961,0.000026982849,0.000074249234,0.00015342409,0.0002745984,0.00007943249,0.000025286952,0.0010216819],"genre_scores_gemma":[0.99615806,0.000011255898,0.002723485,0.000032854434,0.000049716,0.00004305995,0.000023815222,0.000022081336,0.0009356432],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998893,0.00004791443,0.0003507537,0.00021633256,0.00019914581,0.0002928153],"domain_scores_gemma":[0.9994548,0.00002991608,0.00013360861,0.00024587644,0.0000830082,0.000052800726],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012232362,0.00015805637,0.00032295217,0.000036279715,0.00004787332,0.00001607178,0.00016881694,0.000025372277,0.0018936162],"category_scores_gemma":[0.000016932285,0.00012973686,0.000025231384,0.000096536394,0.00015990829,0.0001812096,0.00007058365,0.00005165026,0.000035883328],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005006962,0.00013638884,0.018739486,0.000057305384,0.000015351845,0.0000122239935,0.00047249492,0.00036903555,0.9775423,0.00063596445,0.0005989252,0.0009198562],"study_design_scores_gemma":[0.0016162702,0.00045409263,0.00796313,0.000070590766,0.000013559782,0.000004295952,0.00018448323,0.000009362571,0.98746276,0.0008578499,0.0011695116,0.00019409099],"about_ca_topic_score_codex":0.00059642567,"about_ca_topic_score_gemma":0.000014514849,"teacher_disagreement_score":0.010776357,"about_ca_system_score_codex":0.00001653161,"about_ca_system_score_gemma":0.000051623163,"threshold_uncertainty_score":0.9990188},"labels":[],"label_agreement":null},{"id":"W1992957484","doi":"10.1002/adma.201200927","title":"<i>N</i>‐Heterocyclic Carbazole‐Based Hosts for Simplified Single‐Layer Phosphorescent OLEDs with High Efficiencies","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":111,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Queen's University","funders":"","keywords":"OLED; Carbazole; Phosphorescence; Materials science; Dopant; Layer (electronics); Optoelectronics; Diode; Doping; Nanotechnology; Photochemistry; Optics; Fluorescence; Chemistry","score_opus":0.016427002103393092,"score_gpt":0.23918246896578413,"score_spread":0.22275546686239103,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1992957484","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9927863,0.00035841635,0.0039090742,0.00004323915,0.0011238023,0.0008380129,0.00010523886,0.00055114826,0.0002847959],"genre_scores_gemma":[0.99279165,0.000019439876,0.006281685,0.00010500792,0.00030495867,0.00024250802,0.000042976593,0.00015651628,0.000055284105],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977934,0.000036945847,0.00037919972,0.00030086542,0.0004387034,0.0010509047],"domain_scores_gemma":[0.9989062,0.00019290685,0.00007747045,0.0004942995,0.00012014762,0.00020900766],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00030547392,0.0003489336,0.000431521,0.00009976858,0.0001105101,0.00010603403,0.00028648914,0.000119004944,0.00010023833],"category_scores_gemma":[0.00011449237,0.0002920632,0.00005331858,0.00019780773,0.00007101565,0.00028764497,0.000058397265,0.00009954309,0.00007017174],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015730644,0.00008686466,0.00013868317,0.00025887572,0.000036398076,0.0000022314018,0.00015931939,0.0010464484,0.99752593,0.000099920544,0.00018784023,0.00030016154],"study_design_scores_gemma":[0.0012683857,0.00016319676,0.0007528409,0.000089624824,0.000031222804,0.0000047204094,0.00004135498,0.00012318195,0.9924517,0.000009980235,0.0046633654,0.0004003693],"about_ca_topic_score_codex":0.000013739094,"about_ca_topic_score_gemma":0.0000040531595,"teacher_disagreement_score":0.0050741937,"about_ca_system_score_codex":0.00030854894,"about_ca_system_score_gemma":0.000025364343,"threshold_uncertainty_score":0.99995315},"labels":[],"label_agreement":null},{"id":"W1993613572","doi":"10.1002/adma.201201442","title":"Mosaic Hydrogels: One‐Step Formation of Multiscale Soft Materials","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"National Heart, Lung, and Blood Institute","keywords":"Microscale chemistry; Materials science; Self-healing hydrogels; Biopolymer; Microfluidics; Biomolecule; Nanotechnology; Thermal diffusivity; Polymer; Composite material; Polymer chemistry","score_opus":0.02027812722151695,"score_gpt":0.2746343730316338,"score_spread":0.25435624581011684,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1993613572","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9863174,0.00022115701,0.01078681,0.000023625898,0.0011131224,0.0003447703,0.00014870042,0.0002701161,0.0007742882],"genre_scores_gemma":[0.98283476,0.00012273122,0.016581621,0.000014288859,0.0001940268,0.000076841854,0.000072907605,0.00004733001,0.00005551997],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998349,0.00006820237,0.0005394514,0.000118076154,0.00040502808,0.00052023167],"domain_scores_gemma":[0.9993128,0.000090505775,0.00009414768,0.00029703745,0.00006982779,0.00013565578],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00080924283,0.0001588479,0.00033993486,0.00009317757,0.000036043464,0.000030386804,0.00020937921,0.00009757953,0.0008981586],"category_scores_gemma":[0.00032303913,0.00015423613,0.000029738887,0.00012571394,0.00006651159,0.0005580703,0.000099722,0.00006198903,0.00032536814],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020516347,0.000034113877,0.000019188023,0.00050548173,0.000014847997,4.6190837e-7,0.00011172123,0.00012147674,0.9841309,0.0001601418,0.000207572,0.014673576],"study_design_scores_gemma":[0.00034272877,0.000019204404,0.00065504335,0.00011233122,0.000009243884,0.0000040536074,0.000020815864,0.00012380257,0.9924797,0.00020658123,0.005869972,0.00015652117],"about_ca_topic_score_codex":0.000026363192,"about_ca_topic_score_gemma":0.0000018252863,"teacher_disagreement_score":0.014517054,"about_ca_system_score_codex":0.000083362866,"about_ca_system_score_gemma":0.00001038564,"threshold_uncertainty_score":0.98342067},"labels":[],"label_agreement":null},{"id":"W1993794544","doi":"10.1002/adma.200902778","title":"Collagen Biomineralization In Vivo by Sustained Release of Inorganic Phosphate Ions","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Bone Tissue Engineering Materials","field":"Engineering","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre hospitalier de l'Université Laval; Université Laval; McGill University","funders":"Canadian Institutes of Health Research","keywords":"Biomineralization; Mineralization (soil science); In vivo; Apatite; Materials science; Phosphate; Inorganic phosphate; Nanocrystal; Mineralized tissues; Ion; Nanotechnology; Electron microscope; Biophysics; Biomedical engineering; Mineralogy; Chemical engineering; Biochemistry; Chemistry; Biology; Composite material; Biotechnology; Medicine; Organic chemistry; Optics","score_opus":0.0027955970805436524,"score_gpt":0.19852922045040902,"score_spread":0.19573362336986536,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1993794544","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965931,0.00011410518,0.0007924792,0.000025351565,0.0014683164,0.00033411715,0.00019952242,0.0002925577,0.00018042786],"genre_scores_gemma":[0.9974679,0.000088500565,0.0019490477,0.000009110255,0.000053266627,0.000054473578,0.000047084854,0.00007828803,0.00025233225],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99893206,0.000022213175,0.0004809025,0.00016508705,0.00012240627,0.0002773375],"domain_scores_gemma":[0.99948126,0.000025783398,0.0000750574,0.00029343567,0.0000624053,0.000062055035],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020683784,0.00019281756,0.00034858074,0.00011780471,0.000018218667,0.000028092873,0.00014593285,0.00011914332,0.0009576927],"category_scores_gemma":[0.00015302801,0.00021398309,0.000019024688,0.0002635373,0.000028925833,0.00020670774,0.000031568437,0.000043103464,0.000022145745],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022223521,0.000018882598,0.000014429659,0.00015538315,0.000009215233,0.0000043367936,0.00008809814,0.0053226287,0.9927717,0.0004961005,0.0010027229,0.00009427128],"study_design_scores_gemma":[0.00061061303,0.000019211408,0.00015003144,0.000031435473,0.000008286157,0.0000024972096,0.000017994778,0.00019612852,0.99464184,0.00019669018,0.003913887,0.00021135593],"about_ca_topic_score_codex":0.000048890826,"about_ca_topic_score_gemma":0.000028429165,"teacher_disagreement_score":0.0051265,"about_ca_system_score_codex":0.000055877765,"about_ca_system_score_gemma":0.000018118606,"threshold_uncertainty_score":0.9999556},"labels":[],"label_agreement":null},{"id":"W1993838480","doi":"10.1002/adma.201404193","title":"A More Than Six Orders of Magnitude UV‐Responsive Organic Field‐Effect Transistor Utilizing a Benzothiophene Semiconductor and Disperse Red 1 for Enhanced Charge Separation","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada); McMaster University","funders":"","keywords":"Benzothiophene; Materials science; Organic semiconductor; Semiconductor; Field-effect transistor; Optoelectronics; Transistor; Charge (physics); Analytical Chemistry (journal); Nanotechnology; Organic chemistry; Voltage; Electrical engineering","score_opus":0.004804438875816383,"score_gpt":0.2375574670938436,"score_spread":0.2327530282180272,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1993838480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996051,0.00020990703,0.0024209875,0.000059376565,0.0003644211,0.00067060447,0.00007604661,0.00010190439,0.000045757664],"genre_scores_gemma":[0.9986819,0.00013903416,0.0008154213,0.000053321175,0.00007169363,0.00009441621,0.00004212617,0.00006356427,0.000038526072],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990316,0.000044810906,0.000301111,0.0002342403,0.00010397427,0.00028423706],"domain_scores_gemma":[0.99931955,0.00024989265,0.000083963525,0.00020971023,0.000079275844,0.00005757955],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023984392,0.00021937265,0.0004075648,0.00005532029,0.000056316458,0.00002114023,0.00009109205,0.00011592042,0.00013427001],"category_scores_gemma":[0.00026701254,0.00021620821,0.00004809403,0.000091422924,0.000021447166,0.00013893767,0.000013671332,0.00006721413,0.0000025461075],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030755333,0.000010145644,0.0000053295653,0.00037153912,0.000041423296,3.0673976e-7,0.00057283544,0.00006722667,0.9980858,0.00018160758,0.00005701475,0.00029921645],"study_design_scores_gemma":[0.0011846075,0.0004502326,0.000046050907,0.00006528968,0.000055739558,0.0000022969427,0.000054126944,0.00029781688,0.99669296,0.00019152327,0.0007339767,0.00022538438],"about_ca_topic_score_codex":0.000009541327,"about_ca_topic_score_gemma":0.000055212753,"teacher_disagreement_score":0.0026309022,"about_ca_system_score_codex":0.000051640378,"about_ca_system_score_gemma":0.00002415359,"threshold_uncertainty_score":0.8816715},"labels":[],"label_agreement":null},{"id":"W1995632378","doi":"10.1002/adma.201002738","title":"C<sub>60</sub>:LiF Blocking Layer for Environmentally Stable Bulk Heterojunction Solar Cells","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Passivation; Nanocomposite; Photovoltaics; Blocking (statistics); Layer (electronics); Organic solar cell; Heterojunction; Polymer solar cell; Optoelectronics; Nanotechnology; Energy conversion efficiency; Polymer; Photovoltaic system; Composite material; Computer science; Electrical engineering","score_opus":0.0045450150463944294,"score_gpt":0.18702288812110146,"score_spread":0.18247787307470703,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1995632378","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9935642,0.000067465575,0.0028547654,0.000012356635,0.0026163897,0.0004328552,0.000115399715,0.00019803386,0.00013853084],"genre_scores_gemma":[0.99747294,0.00032045844,0.0015706735,0.00005889188,0.00026618293,0.00009058986,0.000048065613,0.0001040478,0.00006815184],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99889964,0.000009974452,0.00027199925,0.00023495758,0.00013786864,0.00044553183],"domain_scores_gemma":[0.99953413,0.000036447305,0.000061745704,0.00027597745,0.000022705224,0.000069018686],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022212198,0.00021503816,0.00022962506,0.00004274409,0.00010319527,0.000071485614,0.000121534526,0.00013286559,0.00023617498],"category_scores_gemma":[0.000013964192,0.0002304474,0.000048230093,0.000049456576,0.000017359944,0.00020111185,0.000033122375,0.0001383228,0.00007176829],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002443628,0.000018713972,0.0000023778045,0.000065390734,0.000024097691,0.0000013827453,0.00003360263,0.0027493967,0.996118,0.000046897636,0.0003007912,0.0006148844],"study_design_scores_gemma":[0.00045154375,0.00006790897,0.000012749096,0.00001148527,0.000020849182,0.000004508082,0.000005680478,0.0002719642,0.95745766,0.0006102145,0.040828202,0.00025722917],"about_ca_topic_score_codex":0.00000630234,"about_ca_topic_score_gemma":0.000035004556,"teacher_disagreement_score":0.04052741,"about_ca_system_score_codex":0.00008801516,"about_ca_system_score_gemma":0.000014816208,"threshold_uncertainty_score":0.93973726},"labels":[],"label_agreement":null},{"id":"W1996326012","doi":"10.1002/adma.201301082","title":"Cell‐laden Microengineered and Mechanically Tunable Hybrid Hydrogels of Gelatin and Graphene Oxide","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene and Nanomaterials Applications","field":"Engineering","cited_by":340,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Institute of Dental and Craniofacial Research; National Institute of Biomedical Imaging and Bioengineering; National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Heart, Lung, and Blood Institute","keywords":"Self-healing hydrogels; Graphene; Materials science; Gelatin; Nanotechnology; Oxide; Stacking; Tissue engineering; Biomedical engineering; Polymer chemistry; Chemistry; Engineering; Biochemistry","score_opus":0.0026454736863133254,"score_gpt":0.1616938427835159,"score_spread":0.15904836909720257,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1996326012","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966663,0.0007013117,0.0017040913,0.000031747364,0.000101289224,0.00042638267,0.00008389144,0.00014348909,0.00014149354],"genre_scores_gemma":[0.9839927,0.00068493426,0.015044694,0.000018659559,0.000017119124,0.00015483724,0.000018344706,0.000040400082,0.000028332914],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991003,0.000016209453,0.00037865734,0.00019230484,0.00008033341,0.00023214855],"domain_scores_gemma":[0.99952936,0.000039693532,0.00006690894,0.00022725592,0.00005054359,0.00008625693],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000101343016,0.0001784398,0.00033031096,0.00007303288,0.00003668602,0.00004315968,0.000091398986,0.000054983768,0.00013245619],"category_scores_gemma":[0.000012230848,0.00017574843,0.00002302378,0.00008046034,0.000036021,0.00020387938,0.000047963982,0.000030195732,0.000018745828],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000004911207,0.000010220654,0.000010915412,0.00014232151,0.000017454087,6.586919e-7,0.000019429963,0.00015664908,0.99854213,0.00067728816,0.00016262128,0.00025539432],"study_design_scores_gemma":[0.00037902137,0.000026251593,0.0008135636,0.000026542586,0.000020909374,0.000008995369,0.000016005626,0.00005370144,0.9904814,0.007586896,0.00041085863,0.00017587403],"about_ca_topic_score_codex":0.0000476914,"about_ca_topic_score_gemma":0.0000012234316,"teacher_disagreement_score":0.013340603,"about_ca_system_score_codex":0.000009051774,"about_ca_system_score_gemma":0.000005173153,"threshold_uncertainty_score":0.7166813},"labels":[],"label_agreement":null},{"id":"W1997071098","doi":"10.1002/adma.200601818","title":"Rapid Prototyping in Copper Substrates for Digital Microfluidics","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrowetting and Microfluidic Technologies","field":"Engineering","cited_by":106,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Microfluidics; Photolithography; Rapid prototyping; Materials science; Digital microfluidics; Nanotechnology; Printed circuit board; Electrode; Optoelectronics; Electrical engineering; Electrowetting; Engineering","score_opus":0.005995099712240548,"score_gpt":0.20327495166780238,"score_spread":0.19727985195556183,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1997071098","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99043214,0.0067519555,0.00050902984,0.000046082412,0.00021292937,0.0006752337,0.00006809062,0.0008299626,0.00047457067],"genre_scores_gemma":[0.9969243,0.0006192023,0.0018833668,0.000011334844,0.000056908582,0.0003426972,0.000053959342,0.00004340803,0.0000648629],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916494,0.0000046212344,0.00027332903,0.00015792788,0.000048496546,0.0003507037],"domain_scores_gemma":[0.999755,0.00003901757,0.000027755452,0.00013701322,0.000028924673,0.000012251549],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010913672,0.0001492375,0.00019879897,0.00007776034,0.000031633426,0.00006919565,0.000109614135,0.000092851675,0.000007933836],"category_scores_gemma":[0.000043941625,0.00015053076,0.000026502756,0.0000911542,0.000030580988,0.00018819161,0.000014236353,0.00005099711,0.0000111004],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000019412328,0.000010979328,0.000040606574,0.00009634371,0.000004761681,0.0000019685322,0.000011861015,0.00003546731,0.98304075,0.00045358806,0.0014333536,0.014850892],"study_design_scores_gemma":[0.0004243596,0.000037022037,0.000097942146,0.00005937612,0.0000025935833,0.000004738982,0.0000274831,0.0000028358456,0.95248103,0.002895764,0.043792542,0.00017431022],"about_ca_topic_score_codex":0.0000065261893,"about_ca_topic_score_gemma":0.0000022342238,"teacher_disagreement_score":0.04235919,"about_ca_system_score_codex":0.000063944426,"about_ca_system_score_gemma":0.000011514864,"threshold_uncertainty_score":0.6138466},"labels":[],"label_agreement":null},{"id":"W1997152425","doi":"10.1002/adma.200402082","title":"Enhanced Coupling to Slow Photon Modes in Three‐Dimensional Graded Colloidal Photonic Crystals","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Photonic crystal; Polystyrene; Colloid; Etching (microfabrication); Coupling (piping); Photonics; Colloidal crystal; Plasma etching; Gradation; Optoelectronics; Optics; Spectral line; Polymer; Nanotechnology; Composite material; Layer (electronics)","score_opus":0.010147729196425426,"score_gpt":0.26356795526827775,"score_spread":0.25342022607185233,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1997152425","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994818,0.00003705044,0.0026254074,0.00018276207,0.00011055796,0.0009527179,0.00021010537,0.00006220721,0.0010012396],"genre_scores_gemma":[0.99408174,0.0000044880444,0.004411986,0.00015832271,0.00016245367,0.00078920653,0.00007406157,0.000039262934,0.00027847273],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983101,0.000013887762,0.00050010503,0.00046919787,0.00022923562,0.00047750716],"domain_scores_gemma":[0.9992287,0.00006165475,0.00014357845,0.00035502255,0.0000786154,0.00013240872],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00022011172,0.0002575143,0.0004109176,0.00008426926,0.00013121813,0.000068188005,0.00021237595,0.00005023412,0.0011533262],"category_scores_gemma":[0.000009626943,0.00025966778,0.000068577385,0.00022395003,0.000034745215,0.00022371995,0.00009579258,0.00009138454,0.00011000261],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007302698,0.00014899758,0.000026965374,0.000008947063,0.000013978126,5.476809e-7,0.00008202369,0.024906779,0.970318,0.0036751735,0.000055560835,0.0006899556],"study_design_scores_gemma":[0.00095765357,0.000029433639,0.00023585364,0.00006510974,0.000009590985,6.1131766e-7,0.00009653427,0.0010065644,0.98900115,0.005812457,0.002474792,0.00031026534],"about_ca_topic_score_codex":0.0001686591,"about_ca_topic_score_gemma":0.00010313828,"teacher_disagreement_score":0.023900215,"about_ca_system_score_codex":0.000121974066,"about_ca_system_score_gemma":0.00008857191,"threshold_uncertainty_score":0.9999856},"labels":[],"label_agreement":null},{"id":"W1997466842","doi":"10.1002/adma.201104081","title":"CdSe Magic‐Sized Nuclei, Magic‐Sized Nanoclusters and Regular Nanocrystals: Monomer Effects on Nucleation and Growth","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":107,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Steacie Institute for Molecular Sciences","funders":"","keywords":"Nanoclusters; Nucleation; Materials science; Quantum dot; Nanocrystal; Cadmium selenide; Nanotechnology; MAGIC (telescope); Band gap; Nanoparticle; Photoluminescence; Light-emitting diode; Optoelectronics; Chemistry; Physics","score_opus":0.009866321533116175,"score_gpt":0.22218175542393886,"score_spread":0.2123154338908227,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1997466842","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950899,0.001399272,0.000047648806,0.00044326292,0.0013805508,0.0007034333,0.000048469683,0.00016751068,0.0007199662],"genre_scores_gemma":[0.99462557,0.00061573595,0.0033211105,0.00057738123,0.00027093652,0.000066927605,0.0000095799105,0.00007828075,0.000434459],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99756527,0.00040920472,0.0004912063,0.00053853367,0.0003620336,0.00063377904],"domain_scores_gemma":[0.9987451,0.0002759552,0.00027623694,0.00039422678,0.000094408344,0.00021411067],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011701796,0.00040443803,0.00065617246,0.0001110793,0.00023668821,0.000291731,0.00018118847,0.00014867418,0.0005913594],"category_scores_gemma":[0.00037731265,0.0003147876,0.000048222046,0.000084706466,0.00020494695,0.0010959982,0.00016189142,0.000065710425,0.00027770296],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007577867,0.000051652634,0.00009980376,0.0003019101,0.000014629504,0.0000045580023,0.0005006988,0.0000023487648,0.99365216,0.0017774212,0.00022733519,0.0026096737],"study_design_scores_gemma":[0.0015410659,0.00020203214,0.0039489754,0.00023522902,0.000044542765,0.000023463384,0.000120222234,0.00001010992,0.98691666,0.002050696,0.0044496176,0.000457379],"about_ca_topic_score_codex":0.000054717588,"about_ca_topic_score_gemma":0.0000019026884,"teacher_disagreement_score":0.006735515,"about_ca_system_score_codex":0.00006846884,"about_ca_system_score_gemma":0.000021317905,"threshold_uncertainty_score":0.99993044},"labels":[],"label_agreement":null},{"id":"W2000617095","doi":"10.1002/adma.200501062","title":"Photogeneration of Fluorescent Silver Nanoclusters in Polymer Microgels","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanocluster Synthesis and Applications","field":"Materials Science","cited_by":371,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Nanoclusters; Photoluminescence; Fluorescence; Materials science; Polymer; Nanotechnology; Luminescence; Wavelength; Chemical engineering; Photochemistry; Optoelectronics; Optics; Chemistry; Physics; Composite material","score_opus":0.007845867143550624,"score_gpt":0.2384760931646609,"score_spread":0.23063022602111027,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2000617095","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982465,0.00036158942,0.00025029248,0.0002689538,0.00025729556,0.00031620983,0.00007954537,0.000034816963,0.00018480528],"genre_scores_gemma":[0.99119115,0.0000436742,0.008144077,0.0002050458,0.00009594211,0.000108766784,0.000011988697,0.000019187897,0.0001801514],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986888,0.00006520589,0.00052991294,0.0002801209,0.0001896352,0.00024631724],"domain_scores_gemma":[0.99935347,0.000035719615,0.0001924137,0.00031674365,0.00005778058,0.000043866963],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00032261555,0.0001396819,0.00027267984,0.00008049216,0.000046538098,0.000035653567,0.00019774836,0.00005848278,0.0009604718],"category_scores_gemma":[0.00002481452,0.00012745857,0.00003624545,0.000111903624,0.000054251595,0.00026547862,0.0000623047,0.000022462096,0.0001611493],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004432381,0.00007963653,0.000022732243,0.000019616704,0.0000020375,5.424607e-7,0.00013815358,0.00011004947,0.9956817,0.00046170191,0.00010697801,0.0033325304],"study_design_scores_gemma":[0.000445983,0.000016809996,0.00020636582,0.00004302116,0.000006539571,0.0000026352566,0.000030035117,0.000011690141,0.9965586,0.00006145055,0.002478189,0.00013865298],"about_ca_topic_score_codex":0.00006158819,"about_ca_topic_score_gemma":0.00006233139,"teacher_disagreement_score":0.007893785,"about_ca_system_score_codex":0.00007496425,"about_ca_system_score_gemma":0.000035186084,"threshold_uncertainty_score":0.9999528},"labels":[],"label_agreement":null},{"id":"W2002730747","doi":"10.1002/adma.201001491","title":"Infrared Colloidal Quantum Dots for Photovoltaics: Fundamentals and Recent Progress","year":2010,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":485,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photovoltaics; Materials science; Nanotechnology; Quantum dot; Photovoltaic system; Solar cell; Optoelectronics; Energy conversion efficiency; Electrical engineering","score_opus":0.049274895530338016,"score_gpt":0.33489969124603985,"score_spread":0.2856247957157018,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2002730747","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.004600274,0.98520064,0.00001017249,0.00002681712,0.003652808,0.0039785327,0.0021849165,0.00018373437,0.00016209715],"genre_scores_gemma":[0.000052590975,0.99034643,0.0045649293,0.00006136044,0.0003825623,0.0032767025,0.00018062454,0.00016867365,0.00096609996],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99626935,0.00026227065,0.001333948,0.0009788969,0.0003944164,0.0007611514],"domain_scores_gemma":[0.99754286,0.00032999783,0.0010154684,0.00069324096,0.00022518342,0.00019324954],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0013537331,0.00079848024,0.0027018418,0.00014329505,0.00033066413,0.00063960644,0.0005555538,0.00053323497,0.0013284046],"category_scores_gemma":[0.00042747823,0.0005760756,0.00020377152,0.00012264977,0.0003817597,0.0003825445,0.00027060928,0.00016763588,0.0002111539],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017758159,0.00008092357,2.0882966e-7,0.015139015,0.000042722077,0.000005706451,0.00007087948,6.131145e-8,0.3455665,0.00070465566,0.0007678391,0.6374439],"study_design_scores_gemma":[0.00032968863,0.0001698865,2.6800848e-7,0.0036464315,0.00022042105,0.000030254125,0.000019193207,3.3892098e-7,0.22665809,0.0012720957,0.76705784,0.0005955125],"about_ca_topic_score_codex":0.0000072109565,"about_ca_topic_score_gemma":0.0000049668697,"teacher_disagreement_score":0.76628995,"about_ca_system_score_codex":0.00012292148,"about_ca_system_score_gemma":0.00029553685,"threshold_uncertainty_score":0.9996691},"labels":[],"label_agreement":null},{"id":"W2004669976","doi":"10.1002/adma.201101233","title":"Dynamic Control of MOF‐5 Crystal Positioning Using a Magnetic Field","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":69,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada","funders":"","keywords":"Materials science; Metal-organic framework; Nanotechnology; Nucleation; Nanoparticle; Surface modification; Chemical engineering; Organic chemistry","score_opus":0.011596866019673899,"score_gpt":0.24067028522952136,"score_spread":0.22907341920984747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2004669976","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97668314,0.00021950659,0.019600365,0.000036260477,0.00009149313,0.000102698395,0.00008598523,0.000047897334,0.0031326704],"genre_scores_gemma":[0.9707895,0.000023867467,0.028929893,0.000054136202,0.000028167886,0.000033723347,0.0000075885214,0.00002232029,0.0001107994],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991933,0.00001623422,0.00033681147,0.00018024082,0.00010518063,0.00016825023],"domain_scores_gemma":[0.99921423,0.00008576309,0.00018642892,0.00041633294,0.000057797657,0.00003945369],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000092412454,0.00011491865,0.00024945976,0.000023766486,0.00005797182,0.000015846404,0.00018282312,0.00009672095,0.009811042],"category_scores_gemma":[0.00015053051,0.00011315169,0.000045935336,0.000049747377,0.00003516384,0.00007785719,0.000041867508,0.000050970666,0.0000143820025],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043253087,0.000042328622,0.000015201285,0.00006313928,0.000015468313,0.0000013809936,0.00006524621,0.000017049184,0.99766636,0.0009613585,0.000004594629,0.001104611],"study_design_scores_gemma":[0.00030497275,0.000028091057,0.00006461397,0.00012298308,0.000055255026,0.000008846223,0.00007297393,0.00018599791,0.995307,0.003639794,0.000086213615,0.0001232544],"about_ca_topic_score_codex":0.000040487317,"about_ca_topic_score_gemma":0.0000018440303,"teacher_disagreement_score":0.009796659,"about_ca_system_score_codex":0.000024129416,"about_ca_system_score_gemma":0.0000177962,"threshold_uncertainty_score":0.9910941},"labels":[],"label_agreement":null},{"id":"W2006420807","doi":"10.1002/adma.200401764","title":"Buried Linear Extrinsic Defects in Colloidal Photonic Crystals","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Photolithography; Colloidal crystal; Photonic crystal; Colloid; Photonics; Nanotechnology; Self-assembly; Optoelectronics; Optics; Chemical engineering","score_opus":0.008222361543407527,"score_gpt":0.263552486169491,"score_spread":0.25533012462608345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2006420807","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99360436,0.000061998806,0.00038920168,0.00012823904,0.000097873875,0.0005141004,0.00014795586,0.000052403226,0.0050038546],"genre_scores_gemma":[0.99660856,0.000012223817,0.0020450156,0.00007497727,0.0002992071,0.00033727713,0.000056755398,0.00002737701,0.00053863594],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988496,0.00002867402,0.00035926668,0.00029387738,0.00012665922,0.00034192335],"domain_scores_gemma":[0.99940705,0.000045942055,0.00012354061,0.00030813596,0.000042606356,0.00007273634],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016736261,0.00017391091,0.00028873995,0.000053520085,0.00007648866,0.000039897088,0.00015280007,0.000038262224,0.0016429714],"category_scores_gemma":[0.000008404033,0.00017374476,0.000055145734,0.0001656739,0.00003352901,0.00018876288,0.000059329126,0.00006969922,0.00014013302],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026686781,0.00011702691,0.000115095325,0.000008299737,0.000008999571,9.3090637e-7,0.00006664501,0.0005634015,0.9906626,0.0061402856,0.00010017067,0.002189901],"study_design_scores_gemma":[0.0010507706,0.000020602272,0.0004487322,0.000026703226,0.00000899319,8.8335315e-7,0.0000827117,0.00003582579,0.9191402,0.0034613088,0.07550702,0.00021621476],"about_ca_topic_score_codex":0.00007655935,"about_ca_topic_score_gemma":0.000021506947,"teacher_disagreement_score":0.07540685,"about_ca_system_score_codex":0.00006454445,"about_ca_system_score_gemma":0.0000707398,"threshold_uncertainty_score":0.99926966},"labels":[],"label_agreement":null},{"id":"W2009021834","doi":"10.1002/adma.200400860","title":"Rapid Functionalization of Mesoporous Materials: Directly Dispersing Metal Oxides into As‐Prepared SBA‐15 Occluded with Template","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mesoporous Materials and Catalysis","field":"Materials Science","cited_by":166,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"","keywords":"Materials science; Mesoporous material; Surface modification; Mesoporous silica; Oxide; Polymer; Dispersion (optics); Mesoporous organosilica; Metal; Nanotechnology; Electrolyte; Chemical engineering; Catalysis; Composite material; Organic chemistry; Electrode; Metallurgy","score_opus":0.009360945704590848,"score_gpt":0.24454045009606168,"score_spread":0.23517950439147084,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2009021834","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952589,0.0005706675,0.00065524335,0.00015298602,0.0012952328,0.000646463,0.0003009868,0.00031854634,0.0008009466],"genre_scores_gemma":[0.98446953,0.00021339217,0.013656392,0.00018661549,0.0003922873,0.00015116636,0.00041336459,0.000106656444,0.00041061747],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9958017,0.0003791784,0.0013929013,0.0008963228,0.00089304,0.0006368417],"domain_scores_gemma":[0.9974276,0.000108823406,0.0010569161,0.00079962733,0.00043003893,0.00017703521],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001502324,0.00056821393,0.001223514,0.00020277168,0.000322803,0.00027875227,0.00045282627,0.0001762265,0.015076755],"category_scores_gemma":[0.00024077407,0.00046112403,0.000106628184,0.00031165307,0.0002739545,0.0012990097,0.00017896481,0.000050460316,0.00039546017],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014140094,0.00014750709,0.000011384205,0.00019440199,0.00009146859,0.000013887834,0.0006805439,0.00044245098,0.99464166,0.00072079385,0.00021184307,0.0014300743],"study_design_scores_gemma":[0.0011939174,0.00030013802,0.0001385966,0.00016260971,0.0001763367,0.000079199395,0.0002953522,0.00000426517,0.9909676,0.00077001145,0.0053513134,0.0005606665],"about_ca_topic_score_codex":0.00050041627,"about_ca_topic_score_gemma":0.00010446256,"teacher_disagreement_score":0.014681294,"about_ca_system_score_codex":0.00019911035,"about_ca_system_score_gemma":0.00014944318,"threshold_uncertainty_score":0.99978405},"labels":[],"label_agreement":null},{"id":"W2010095648","doi":"10.1002/1521-4095(200007)12:14<1036::aid-adma1036>3.0.co;2-y","title":"Electronic Properties of Novel Mixed Oxidation-State Bis-Arene Chromium Nanowires Supported by a Mesoporous Niobium Oxide Host","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Molecular Junctions and Nanostructures","field":"Engineering","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec; University of Windsor","funders":"","keywords":"Materials science; Oxidizing agent; Niobium; Mesoporous material; Oxide; Chromium; Oxidation state; Metal; Niobium oxide; Nanowire; Nanotechnology; Quantum dot; Inorganic chemistry; Metallurgy; Organic chemistry; Catalysis","score_opus":0.004542038706061845,"score_gpt":0.1878534074831087,"score_spread":0.18331136877704685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2010095648","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99694914,0.0012342394,0.00054782315,0.000022401473,0.00034659755,0.00032940976,0.00019168128,0.00023009272,0.00014863162],"genre_scores_gemma":[0.9977278,0.00062521617,0.00068938883,0.000031209034,0.000028354409,0.00007141245,0.00013496618,0.00006806586,0.0006235818],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99867773,0.000028053299,0.00045734044,0.00023589759,0.00018985457,0.00041110074],"domain_scores_gemma":[0.99946916,0.000009414268,0.00008319581,0.00030596068,0.0000774816,0.0000547639],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010300129,0.00025266272,0.00035437636,0.00008320017,0.00006222566,0.000037526344,0.00015159602,0.0000799935,0.0005721239],"category_scores_gemma":[0.000023161474,0.000226099,0.000051869054,0.00016864734,0.000052516854,0.00019769085,0.000016892775,0.00006254239,0.00001664893],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008180348,0.00003673795,0.0000024094106,0.00009341885,0.0000658981,0.0000017037352,0.000040184525,0.002080214,0.9960307,0.000042522406,0.0007339557,0.0007904834],"study_design_scores_gemma":[0.0007681881,0.00006241042,0.00027331067,0.000047252637,0.000025750234,0.000014015495,0.000013652804,0.00005074905,0.98794353,0.00005853137,0.010484681,0.00025790415],"about_ca_topic_score_codex":0.000119379154,"about_ca_topic_score_gemma":0.00004054613,"teacher_disagreement_score":0.009750726,"about_ca_system_score_codex":0.00007565735,"about_ca_system_score_gemma":0.000057842444,"threshold_uncertainty_score":0.92200494},"labels":[],"label_agreement":null},{"id":"W2010637277","doi":"10.1002/adma.200802222","title":"Materials Science in the Developing World: Challenges and Perspectives for Africa","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanotechnology research and applications","field":"Engineering","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"","keywords":"Humanity; Compassion; Hospitality; Aesthetics; Materials science; Environmental ethics; Theology; Philosophy; History; Archaeology","score_opus":0.054070626168548075,"score_gpt":0.2948790631750039,"score_spread":0.24080843700645582,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2010637277","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99441147,0.0024690568,0.00050649245,0.0012121333,0.00008264568,0.0004913625,0.000021082202,0.00011686244,0.00068892556],"genre_scores_gemma":[0.9884124,0.0038464915,0.007161085,0.0000074016384,0.000029269337,0.0004966499,9.372271e-7,0.000010158737,0.000035619763],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99936414,0.000012780037,0.000117874755,0.0001580302,0.00009228345,0.00025489042],"domain_scores_gemma":[0.9996925,0.000079350975,0.000015624764,0.00015172263,0.000042451185,0.000018340193],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037633668,0.000075989534,0.00012181744,0.00015055397,0.00014413623,0.000025182742,0.00020527338,0.000025523766,0.000008143826],"category_scores_gemma":[0.00010806058,0.000057654266,0.000005837875,0.00021503022,0.00022874535,0.0001495363,0.000034174696,0.00003154464,0.000004695707],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000071924105,0.000005828352,9.5279495e-7,0.00003082584,0.000002110085,0.0000013887501,0.001324612,0.000011297505,0.96675605,0.029870445,0.00003540761,0.0019539222],"study_design_scores_gemma":[0.00023285237,0.00001838461,0.001955216,0.000023081599,0.00000146036,0.00001405533,0.0010053841,0.000003908263,0.978123,0.0104538845,0.008057818,0.00011092656],"about_ca_topic_score_codex":0.0000010028795,"about_ca_topic_score_gemma":0.000007679809,"teacher_disagreement_score":0.019416561,"about_ca_system_score_codex":0.00004344395,"about_ca_system_score_gemma":0.000025580644,"threshold_uncertainty_score":0.23510727},"labels":[],"label_agreement":null},{"id":"W2011257287","doi":"10.1002/adma.200305395","title":"Colloidal PbS Nanocrystals with Size‐Tunable Near‐Infrared Emission: Observation of Post‐Synthesis Self‐Narrowing of the Particle Size Distribution","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":1808,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photoluminescence; Nanocrystalline material; Nanocrystal; Quantum dot; Particle size; Infrared; Particle-size distribution; Colloid; Absorption edge; Absorption (acoustics); Nanoparticle; Particle (ecology); Exciton; Nanotechnology; Solvent; Band gap; Optoelectronics; Chemical engineering; Optics; Condensed matter physics; Organic chemistry; Composite material","score_opus":0.011104646374277704,"score_gpt":0.21069374205034522,"score_spread":0.1995890956760675,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2011257287","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9984051,0.00015221389,0.000042452662,0.00015179889,0.00027276643,0.00041424058,0.00020135757,0.00006004961,0.00030001556],"genre_scores_gemma":[0.99395394,0.000029572475,0.005394612,0.000049817678,0.000017557935,0.00007636364,0.0000036224744,0.000026460659,0.00044805597],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978194,0.00042155263,0.0006536731,0.00029463056,0.000469957,0.0003407509],"domain_scores_gemma":[0.9979887,0.0005758438,0.00053531927,0.0004840102,0.00035293575,0.00006321556],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010483094,0.00020905709,0.00048116216,0.0000059837485,0.0002754504,0.00008651988,0.00025796946,0.00008479914,0.0012954763],"category_scores_gemma":[0.0025100547,0.00012936341,0.00006805201,0.00022678344,0.00018459278,0.00044067405,0.000055923407,0.000036286074,0.000008570453],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035636203,0.00008877541,0.0004582119,0.0001694077,0.000014457668,9.622773e-7,0.00029991783,0.00018217463,0.99759555,0.00065692526,0.000049400274,0.00012783961],"study_design_scores_gemma":[0.00040108402,0.00013374588,0.0041454276,0.00028026072,0.000052426043,0.0000055677506,0.0002983149,0.000009736752,0.9903805,0.00040419248,0.003704558,0.000184157],"about_ca_topic_score_codex":0.000050887673,"about_ca_topic_score_gemma":0.0000030346603,"teacher_disagreement_score":0.0072150365,"about_ca_system_score_codex":0.000069431204,"about_ca_system_score_gemma":0.00020305123,"threshold_uncertainty_score":0.99961746},"labels":[],"label_agreement":null},{"id":"W2012050805","doi":"10.1002/adma.200305740","title":"Direct Writing of Patterned Ceramics Using Electron‐Beam Lithography and Metallopolymer Resists","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Copper Interconnects and Reliability","field":"Materials Science","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta; University of Toronto","funders":"","keywords":"Materials science; Resist; Electron-beam lithography; Lithography; Ceramic; Scanning electron microscope; Cathode ray; X-ray lithography; Focused ion beam; Nanotechnology; Electron beam-induced deposition; Ion beam lithography; Electron; Optoelectronics; Scanning transmission electron microscopy; Ion; Composite material; Chemistry","score_opus":0.01012461892369488,"score_gpt":0.2663083647633207,"score_spread":0.25618374583962583,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2012050805","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99789774,0.0006947849,0.0002542519,0.000051386098,0.0004605713,0.00024156044,0.000076035205,0.00007332587,0.0002503163],"genre_scores_gemma":[0.99415815,0.00011645163,0.0055237133,0.00007513024,0.000064872176,0.000013076237,0.0000052881505,0.000027130272,0.000016186896],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99837255,0.000084100866,0.00052979443,0.00042568133,0.00022089675,0.00036696126],"domain_scores_gemma":[0.9991795,0.00007597582,0.00022998583,0.0003219152,0.00012275184,0.00006990766],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00063426176,0.00020429202,0.00047096136,0.00008234383,0.000108418244,0.00008387366,0.00015857609,0.00007719895,0.00016996832],"category_scores_gemma":[0.00011700946,0.00017122325,0.00006791935,0.0001278353,0.00019923762,0.0002790038,0.000111767295,0.00004687983,0.0000047187577],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000092420436,0.00004768069,0.00008471886,0.00012739988,0.000014218284,0.0000034227726,0.0001501975,0.00012338828,0.99863577,0.0004323072,0.0000011159881,0.00028738703],"study_design_scores_gemma":[0.00052754726,0.00010829579,0.00067211286,0.00014951114,0.000036728365,0.000012995131,0.00007593535,0.0000015315404,0.99650466,0.0016234879,0.000081936785,0.00020522813],"about_ca_topic_score_codex":0.00028458814,"about_ca_topic_score_gemma":0.000019622854,"teacher_disagreement_score":0.005269462,"about_ca_system_score_codex":0.00006080048,"about_ca_system_score_gemma":0.00004665995,"threshold_uncertainty_score":0.6982282},"labels":[],"label_agreement":null},{"id":"W2013219470","doi":"10.1002/adma.200602496","title":"A Low‐Bandgap Poly(2,7‐Carbazole) Derivative for Use in High‐Performance Solar Cells","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":1251,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Materials science; Carbazole; Fullerene; Stille reaction; Band gap; Polymer; Polymer solar cell; Photovoltaic system; Solar cell; Conjugated system; Characterization (materials science); Chemical engineering; Polymer chemistry; Organic solar cell; Suzuki reaction; Nanotechnology; Optoelectronics; Photochemistry; Organic chemistry; Composite material; Palladium","score_opus":0.0065475033893321365,"score_gpt":0.20867236383023907,"score_spread":0.20212486044090694,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2013219470","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9903034,0.00012926418,0.00810885,0.000005531473,0.0007730767,0.00041604217,0.00008153948,0.00012920346,0.000053101736],"genre_scores_gemma":[0.99479216,0.00036019462,0.004482295,0.000075625576,0.00010092406,0.00004265271,0.000027675056,0.00006686212,0.00005158218],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988073,0.000009102955,0.00035004728,0.00018749168,0.0001058487,0.00054019154],"domain_scores_gemma":[0.99952924,0.00011201976,0.0000516594,0.00020401417,0.00004751106,0.000055578275],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032247824,0.0001952493,0.00027031844,0.00008908452,0.000042098498,0.000040763545,0.0001211554,0.00010210376,0.00004631841],"category_scores_gemma":[0.000027685788,0.00020331831,0.000025014147,0.00015720716,0.000016342176,0.00030030363,0.000022823786,0.00008979568,0.000016314796],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008550383,0.000017999311,0.00004648282,0.000120431156,0.000013346298,0.0000033921576,0.00009724651,0.0013023877,0.9968274,0.00013485266,0.000054822605,0.0012961277],"study_design_scores_gemma":[0.00078781374,0.0000864029,0.0006822899,0.000055321303,0.000006345338,0.0000014672955,0.000010839162,0.0002925003,0.99434453,0.00030664797,0.0031769052,0.00024891092],"about_ca_topic_score_codex":0.00003102768,"about_ca_topic_score_gemma":0.00010692727,"teacher_disagreement_score":0.0044887974,"about_ca_system_score_codex":0.00015678353,"about_ca_system_score_gemma":0.000022672626,"threshold_uncertainty_score":0.829108},"labels":[],"label_agreement":null},{"id":"W2014236357","doi":"10.1002/adma.201301183","title":"Orthogonal Adsorption Onto Nano‐Graphene Oxide Using Different Intermolecular Forces for Multiplexed Delivery","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene and Nanomaterials Applications","field":"Engineering","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Graphene; Materials science; Oxide; Adsorption; Nanotechnology; Intermolecular force; Nano-; Liposome; Drug delivery; Chemical engineering; Molecule; Organic chemistry; Composite material; Chemistry","score_opus":0.010459471194070619,"score_gpt":0.2204326899743068,"score_spread":0.20997321878023617,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2014236357","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9801889,0.00016218505,0.017575044,0.000008054618,0.0005476185,0.0010723938,0.00013461354,0.0002863579,0.000024813215],"genre_scores_gemma":[0.97954917,0.00011322391,0.018942075,0.000041904656,0.00008138694,0.0010508086,0.0001416712,0.00006795026,0.0000118373955],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987983,0.00002462844,0.00044383272,0.00025867362,0.00012208673,0.0003524749],"domain_scores_gemma":[0.9993875,0.000043129876,0.000093369425,0.00027258435,0.00012236706,0.00008107478],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007999288,0.00026189536,0.00033838378,0.00010293216,0.000084112595,0.00009570223,0.0001528281,0.00009428073,0.00015144495],"category_scores_gemma":[0.000017227545,0.00024426813,0.00010023429,0.00007952659,0.000029253211,0.00031775387,0.000037419835,0.000026033424,0.00002683038],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031919386,0.00002098739,0.000032676966,0.000099770354,0.00004351239,2.5109617e-7,0.000024470077,0.0014345972,0.9969184,0.00065204105,0.000051062063,0.00069034914],"study_design_scores_gemma":[0.00062965584,0.000033691504,0.0017784712,0.00005989563,0.000037054466,0.000003279482,0.000026915694,0.00085781305,0.9935359,0.0022745098,0.0004704487,0.00029236358],"about_ca_topic_score_codex":0.00006317212,"about_ca_topic_score_gemma":0.00002706771,"teacher_disagreement_score":0.0033824616,"about_ca_system_score_codex":0.000063673986,"about_ca_system_score_gemma":0.000008422647,"threshold_uncertainty_score":0.9960965},"labels":[],"label_agreement":null},{"id":"W2014552670","doi":"10.1002/adma.201204502","title":"Graded Doping for Enhanced Colloidal Quantum Dot Photovoltaics","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":194,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"King Abdullah University of Science and Technology","keywords":"Homojunction; Materials science; Doping; Quantum dot; Photovoltaics; Optoelectronics; Nanotechnology; Energy conversion efficiency; Multiple exciton generation; Photovoltaic system; Electrical engineering","score_opus":0.02104906493428152,"score_gpt":0.2527244221730619,"score_spread":0.23167535723878038,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2014552670","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943404,0.00022647258,0.0009936097,0.00018367656,0.0021494485,0.0014567006,0.00013440804,0.0002456879,0.00026957702],"genre_scores_gemma":[0.9893065,0.00009857213,0.007919119,0.00032469275,0.0002556326,0.0014062717,0.000019854193,0.0000637345,0.0006055927],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99774534,0.000105334344,0.0006407945,0.0005248563,0.00030633525,0.00067732367],"domain_scores_gemma":[0.99863833,0.0002360618,0.000282965,0.00043819862,0.00028422623,0.000120234916],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000570241,0.0003148455,0.0005693799,0.000065717366,0.00030430904,0.00036049867,0.00038314896,0.000116993004,0.0029704028],"category_scores_gemma":[0.0004177383,0.00024956977,0.000090015325,0.00009206708,0.00012658707,0.00071857736,0.00009236131,0.00004634072,0.00087547523],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014601121,0.000038153907,0.0000014218323,0.0001320071,0.00000832472,6.292009e-7,0.00017194056,0.000020138297,0.99601,0.0019996222,0.00089588173,0.00057586865],"study_design_scores_gemma":[0.0006547214,0.0001719533,0.00005169907,0.000099073644,0.000016181559,0.0000034470916,0.00018497345,0.000019975363,0.9808384,0.010684781,0.0068822787,0.00039248305],"about_ca_topic_score_codex":0.00017422362,"about_ca_topic_score_gemma":0.000009978107,"teacher_disagreement_score":0.015171568,"about_ca_system_score_codex":0.000074186966,"about_ca_system_score_gemma":0.000065516026,"threshold_uncertainty_score":0.99999565},"labels":[],"label_agreement":null},{"id":"W2015019985","doi":"10.1002/adma.200401723","title":"A Three‐Dimensional Porous Silicon p–n Diode for Betavoltaics and Photovoltaics","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":161,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photovoltaics; Materials science; Silicon; Diode; Porous silicon; Photovoltaic system; Energy conversion efficiency; Optoelectronics; Porosity; Energy transformation; Layer (electronics); Engineering physics; Nanotechnology; Composite material; Electrical engineering","score_opus":0.010662700236497204,"score_gpt":0.24805012698385714,"score_spread":0.23738742674735994,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2015019985","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996776,0.00051950285,0.00017764952,0.00018189082,0.0008969406,0.00074165344,0.00055263075,0.00012405541,0.000029668601],"genre_scores_gemma":[0.9846245,0.000035778743,0.013856492,0.0007496408,0.0003822133,0.00014602671,0.00004669682,0.000043341333,0.00011530452],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99824136,0.000025116253,0.0004453533,0.0005381431,0.00027086432,0.00047918453],"domain_scores_gemma":[0.9989733,0.00016719013,0.00019700118,0.000356901,0.00016825208,0.00013737084],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036682855,0.00027781533,0.00042093324,0.000049428385,0.00021127351,0.000121450976,0.00021881037,0.0001261795,0.0005198807],"category_scores_gemma":[0.00019170884,0.00024321486,0.000046949015,0.000072570605,0.00014775146,0.00034291402,0.00011145464,0.000050696784,0.00004396071],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002556795,0.000026704656,0.000049569695,0.000054510838,0.0000054956895,0.000002614739,0.000051844057,0.00005590912,0.9961189,0.00073369005,0.00057964155,0.0020654635],"study_design_scores_gemma":[0.0009890514,0.00012638944,0.0006721709,0.000033986216,0.000023243609,0.000048388003,0.000011122884,0.00010740985,0.98392946,0.003004086,0.010740634,0.00031404122],"about_ca_topic_score_codex":0.00008710128,"about_ca_topic_score_gemma":0.00015192594,"teacher_disagreement_score":0.013678843,"about_ca_system_score_codex":0.000050532068,"about_ca_system_score_gemma":0.0000575519,"threshold_uncertainty_score":0.99180144},"labels":[],"label_agreement":null},{"id":"W2017692871","doi":"10.1002/adma.201304511","title":"Coherent X‐Ray Diffraction Imaging and Characterization of Strain in Silicon‐on‐Insulator Nanostructures","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced X-ray Imaging Techniques","field":"Physics and Astronomy","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Engineering and Physical Sciences Research Council; Bundesministerium für Bildung und Forschung","keywords":"Materials science; Diffraction; Characterization (materials science); Nanometre; Nanotechnology; Coherent diffraction imaging; Nanostructure; Nanoscopic scale; Bragg's law; Silicon on insulator; Semiconductor; Silicon; Optoelectronics; Engineering physics; Optics; Physics","score_opus":0.003992414513615885,"score_gpt":0.24355222999174414,"score_spread":0.23955981547812827,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2017692871","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9915386,0.0000055442506,0.0076293023,0.00005498663,0.00018813342,0.00026404223,0.00012329932,0.000055289707,0.00014083149],"genre_scores_gemma":[0.9972496,0.000004921598,0.0024422305,0.000049212045,0.00008748563,0.00003960848,0.00008952611,0.000023483708,0.000013918505],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916273,0.000057782883,0.0002914922,0.00022614599,0.00010145515,0.0001603663],"domain_scores_gemma":[0.99946475,0.00004111593,0.00023332861,0.00018650336,0.00004415932,0.000030144389],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012698401,0.00015128007,0.00025746154,0.00007531054,0.000033389068,0.00002642307,0.00006871239,0.00002153704,0.00008118009],"category_scores_gemma":[0.000023718829,0.00014413672,0.000018269897,0.000053755473,0.00004415384,0.00027034734,0.000031729618,0.00005508458,0.0000018073889],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003304322,0.000025821726,0.0034992755,0.000019888961,0.000003992349,1.8610693e-7,0.000059720882,0.000033362787,0.9588782,0.0042971196,0.0000018818321,0.033147514],"study_design_scores_gemma":[0.00044087003,0.00003132773,0.11760378,0.000082356826,0.000005193789,3.7438986e-7,0.00003493165,0.00006088882,0.86626995,0.014853713,0.00047368312,0.0001429635],"about_ca_topic_score_codex":0.00002118655,"about_ca_topic_score_gemma":6.922601e-7,"teacher_disagreement_score":0.1141045,"about_ca_system_score_codex":0.000022577533,"about_ca_system_score_gemma":0.000008426056,"threshold_uncertainty_score":0.5877725},"labels":[],"label_agreement":null},{"id":"W2022189415","doi":"10.1002/adma.201305981","title":"Record High Electron Mobility of 6.3 cm<sup>2</sup>V<sup>−1</sup>s<sup>−1</sup> Achieved for Polymer Semiconductors Using a New Building Block","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":412,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Department of Biotechnology, Ministry of Science and Technology, India","keywords":"Ambipolar diffusion; Materials science; Acceptor; Block (permutation group theory); Polymer; Transistor; Electron mobility; Electron acceptor; Semiconductor; Crystallography; Nanotechnology; Electron; Optoelectronics; Physics; Condensed matter physics; Chemistry; Combinatorics; Organic chemistry; Nuclear physics","score_opus":0.009826358968810643,"score_gpt":0.23623781568298663,"score_spread":0.22641145671417598,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2022189415","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947837,0.0007290247,0.0016333107,0.000065139866,0.0005677198,0.0013426353,0.0003016825,0.0005197248,0.000057035562],"genre_scores_gemma":[0.98900634,0.00028160747,0.008900621,0.00011831474,0.00085771596,0.0001036929,0.00012264385,0.0003767342,0.00023235264],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99507123,0.00020111611,0.0015183938,0.0010259954,0.00046957747,0.001713697],"domain_scores_gemma":[0.99744225,0.00040544834,0.00039784505,0.0011882284,0.00021307814,0.00035315726],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009899138,0.00094173686,0.0015369038,0.00024765317,0.00024537224,0.00014625475,0.00065920514,0.0005240306,0.00032037313],"category_scores_gemma":[0.00034568165,0.0009988337,0.00028640614,0.0004958972,0.00008853117,0.00058862614,0.00017066064,0.00045537643,0.000019397967],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024568877,0.000077698336,0.000054628126,0.0004254712,0.00019162343,0.000001593568,0.00043574063,0.11828303,0.87859935,0.000846544,0.00026062675,0.000578009],"study_design_scores_gemma":[0.0019718215,0.00046350335,0.000013660215,0.00020358521,0.00020667602,0.000025667607,0.00010366957,0.020433517,0.9643634,0.003529265,0.007698497,0.0009867646],"about_ca_topic_score_codex":0.000634249,"about_ca_topic_score_gemma":0.00001924783,"teacher_disagreement_score":0.09784952,"about_ca_system_score_codex":0.00059800135,"about_ca_system_score_gemma":0.00026383295,"threshold_uncertainty_score":0.9992462},"labels":[],"label_agreement":null},{"id":"W2022495988","doi":"10.1002/adma.200500461","title":"Light‐Emitting Polythiophenes","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":903,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"","keywords":"Materials science; Polyfluorene; Electroluminescence; Thiophene; Polymer; Conjugated system; Light-emitting diode; Nanotechnology; Transistor; Optoelectronics; Organic chemistry; Composite material; Chemistry","score_opus":0.0038396213095718778,"score_gpt":0.19999535607576244,"score_spread":0.19615573476619055,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2022495988","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99347466,0.00095632835,0.00014495416,0.00013344445,0.00057826284,0.00009057082,0.00000855607,0.00042837628,0.004184836],"genre_scores_gemma":[0.9970958,0.00030182087,0.0018934235,0.000097681106,0.0003765298,0.000011969032,0.00000386629,0.000045794703,0.00017309183],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993264,0.000007235724,0.0001921471,0.00010960214,0.00008993249,0.00027469773],"domain_scores_gemma":[0.99972576,0.000020820278,0.00002417547,0.00016573745,0.000020908403,0.00004259073],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010871142,0.00011963985,0.00014641177,0.000025107569,0.000042383526,0.000032931574,0.000094744864,0.000052326326,0.00033052146],"category_scores_gemma":[0.000023471519,0.000119152144,0.000020032347,0.00006290009,0.0000042158367,0.00013968279,0.000018580391,0.0000534923,0.00016785851],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000002950088,0.0000040937507,0.0000022061465,0.000020101763,0.000008407157,9.795876e-7,0.000055160137,0.00087071507,0.9946355,0.0009285298,0.000298124,0.0031732277],"study_design_scores_gemma":[0.00013257173,0.000011742375,0.000011324369,0.000012512685,0.000004390066,0.000004865526,0.000006837905,0.000058328023,0.89111817,0.00058216,0.107922964,0.00013415831],"about_ca_topic_score_codex":0.0000024681017,"about_ca_topic_score_gemma":0.000007836782,"teacher_disagreement_score":0.10762484,"about_ca_system_score_codex":0.000066591194,"about_ca_system_score_gemma":0.000010269949,"threshold_uncertainty_score":0.48588836},"labels":[],"label_agreement":null},{"id":"W2022636644","doi":"10.1002/adma.201001816","title":"Near‐Infrared Sunlight Harvesting in Dye‐Sensitized Solar Cells Via the Insertion of an Upconverter‐TiO<sub>2</sub> Nanocomposite Layer","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Photocatalysis Techniques","field":"Energy","cited_by":314,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Nanocomposite; Photocurrent; Materials science; Layer (electronics); Dye-sensitized solar cell; Doping; Optoelectronics; Infrared; Solar cell; Energy conversion efficiency; Nanotechnology; Optics; Chemistry; Physics","score_opus":0.006890275288083712,"score_gpt":0.23702625687116233,"score_spread":0.2301359815830786,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2022636644","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99654186,0.0000131728075,0.001262747,0.00003923382,0.000551284,0.0008110977,0.000030951,0.0003176784,0.00043200527],"genre_scores_gemma":[0.97911763,0.000028582128,0.020099374,0.00020341878,0.0000947841,0.00019591219,0.0001073761,0.00009682112,0.00005610695],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973604,0.0003070495,0.0009534179,0.0005456526,0.00033975483,0.00049368985],"domain_scores_gemma":[0.9978845,0.00017699636,0.0005514516,0.0010587848,0.00022792695,0.000100344005],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007496554,0.000380943,0.0006633208,0.00016409575,0.00017612435,0.000108166685,0.00044096072,0.00024347194,0.0000817551],"category_scores_gemma":[0.00014156188,0.000321043,0.00009762859,0.00036801735,0.00019529967,0.0010142911,0.00014566281,0.00027634503,0.00005242039],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002951154,0.00008401124,0.000021951895,0.00004494727,0.000021848062,0.00001701724,0.0002817685,0.00084861135,0.98861,0.00026934457,0.000008954537,0.009496395],"study_design_scores_gemma":[0.0008942829,0.00008780106,0.0008009552,0.00007350035,0.000031954307,0.000017989694,0.000025487923,0.00043621004,0.99127084,0.0045694774,0.0014241182,0.00036739523],"about_ca_topic_score_codex":0.00088089774,"about_ca_topic_score_gemma":0.0014485256,"teacher_disagreement_score":0.018836627,"about_ca_system_score_codex":0.00007209735,"about_ca_system_score_gemma":0.00004824543,"threshold_uncertainty_score":0.9999242},"labels":[],"label_agreement":null},{"id":"W2022830898","doi":"10.1002/adma.201202825","title":"N‐Type Colloidal‐Quantum‐Dot Solids for Photovoltaics","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":211,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Quantum dot; Chalcogen; Photovoltaics; Nanotechnology; Halide; Inert; Colloid; Halogen; Ion; Chemical engineering; Inorganic chemistry; Crystallography; Photovoltaic system; Organic chemistry; Chemistry","score_opus":0.03516349227024919,"score_gpt":0.28449829691419054,"score_spread":0.24933480464394137,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2022830898","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9923922,0.0010243839,0.00020428633,0.00009111121,0.004688524,0.0006595513,0.00025691965,0.0001963426,0.00048667207],"genre_scores_gemma":[0.99139845,0.00015934002,0.006365178,0.00035377618,0.00063423236,0.00025739003,0.000023492785,0.00006731445,0.00074083125],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979911,0.00010198547,0.0004901051,0.00032196761,0.00028578323,0.0008090747],"domain_scores_gemma":[0.99880517,0.00019684165,0.00020893344,0.0004170816,0.00021295223,0.00015904802],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012035843,0.0002739448,0.00048183088,0.00005476977,0.00026274,0.0001428591,0.00030210914,0.00011529284,0.0020888264],"category_scores_gemma":[0.00053095975,0.00021692249,0.00006905675,0.00009797811,0.00010865804,0.00067051564,0.000091210364,0.00003945667,0.0007404109],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004002278,0.000071945375,0.000020592006,0.0001038896,0.000008227147,5.6976086e-7,0.00022061223,0.000008793607,0.991731,0.0049256096,0.0022061546,0.00030240873],"study_design_scores_gemma":[0.000453898,0.00015398215,0.00006866412,0.000040462364,0.000025383708,0.0000074925224,0.00010111071,0.0000050713957,0.8690582,0.0018185589,0.12796462,0.000302558],"about_ca_topic_score_codex":0.0000313545,"about_ca_topic_score_gemma":0.0000031279376,"teacher_disagreement_score":0.12575845,"about_ca_system_score_codex":0.00006845293,"about_ca_system_score_gemma":0.00006126181,"threshold_uncertainty_score":0.9988234},"labels":[],"label_agreement":null},{"id":"W2022862144","doi":"10.1002/adma.201101717","title":"Reflection Order Selectivity of Color‐Tunable Poly(<i>N</i>‐isopropylacrylamide) Microgel Based Etalons","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":122,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Fabry–Pérot interferometer; Poly(N-isopropylacrylamide); Reflection (computer programming); Yield (engineering); Dielectric; Optics; Optoelectronics; Wavelength; Polymer; Copolymer; Composite material; Physics","score_opus":0.019145294333979053,"score_gpt":0.22462539484468266,"score_spread":0.20548010051070362,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2022862144","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97974735,0.00013097726,0.012953018,0.000005107151,0.0012560611,0.0002597027,0.00008309173,0.0006867405,0.004877966],"genre_scores_gemma":[0.9476774,0.000046183246,0.051821675,0.000040219165,0.00006930689,0.000070146096,0.000028718356,0.00009371048,0.00015266615],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99845153,0.00008033362,0.00052438874,0.0003085838,0.00017492447,0.0004602377],"domain_scores_gemma":[0.99912375,0.00005440703,0.00015771313,0.00037221957,0.00020798644,0.00008394425],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028642738,0.00030629538,0.00052001607,0.00012528576,0.00008983221,0.000024047184,0.00015812067,0.00014652999,0.00051374245],"category_scores_gemma":[0.00015522495,0.00031111663,0.00005407352,0.00032072174,0.000083133105,0.00036376034,0.000031764677,0.00007931455,0.000039670536],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016519713,0.000055290144,0.000045704623,0.00018490397,0.000031605698,0.0000058166006,0.00008296032,0.008464906,0.98963666,0.0005091573,0.000038186547,0.00077963277],"study_design_scores_gemma":[0.0005602529,0.00011422314,0.00075307454,0.000059178667,0.000028703349,0.000011112309,0.000018287956,0.00015390663,0.99544585,0.0012812892,0.0012456708,0.00032843655],"about_ca_topic_score_codex":0.00022290368,"about_ca_topic_score_gemma":0.000058336336,"teacher_disagreement_score":0.038868655,"about_ca_system_score_codex":0.00013660274,"about_ca_system_score_gemma":0.000041681593,"threshold_uncertainty_score":0.9999341},"labels":[],"label_agreement":null},{"id":"W2023836763","doi":"10.1002/adma.200590105","title":"Inside Front Cover: Redox‐Tunable Defects in Colloidal Photonic Crystals (Adv. Mater. 20/2005)","year":2005,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Redox; Planar; Colloidal crystal; Photonic crystal; Colloid; Nanotechnology; Photonics; Polymer; Self-assembly; Electrode; Optoelectronics; Microcontact printing; Front cover; Cover (algebra); Chemical engineering; Composite material","score_opus":0.007155210295094665,"score_gpt":0.257709297456336,"score_spread":0.25055408716124133,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2023836763","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.59630406,0.0025633865,0.00060498633,0.00019964254,0.00329299,0.0045036785,0.016566657,0.0001616283,0.375803],"genre_scores_gemma":[0.79793227,0.00077778846,0.0012716622,0.00020347495,0.0010658947,0.0022071558,0.0037654794,0.00022363744,0.19255264],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99588645,0.00012793126,0.0012432287,0.001081564,0.00040649308,0.0012543374],"domain_scores_gemma":[0.99769855,0.000103871345,0.0008019533,0.0010382123,0.00012260111,0.0002348039],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00039500254,0.00085285166,0.0015078438,0.00020568892,0.00021123441,0.0002905243,0.00058335887,0.00034231634,0.0499517],"category_scores_gemma":[0.000011319856,0.000883748,0.00022882265,0.00018924852,0.0001014308,0.0003950494,0.00028435292,0.0003713735,0.0077512814],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001285887,0.00029431575,0.000012323263,0.00018050961,0.00009933236,0.0000075922735,0.0000857972,0.003499983,0.8854443,0.00065046985,0.10916676,0.00043004157],"study_design_scores_gemma":[0.0011533203,0.000034933517,0.000020899677,0.00027885652,0.00004236496,0.0000027756623,0.000065704764,0.000008559556,0.39974934,0.0013751485,0.5966041,0.0006639798],"about_ca_topic_score_codex":0.0007991248,"about_ca_topic_score_gemma":0.00016562273,"teacher_disagreement_score":0.48743737,"about_ca_system_score_codex":0.0005186845,"about_ca_system_score_gemma":0.000607042,"threshold_uncertainty_score":0.99936134},"labels":[],"label_agreement":null},{"id":"W2024262551","doi":"10.1002/adma.200702136","title":"Fabrication of Elastomeric Wires by Selective Electroless Metallization of Poly(dimethylsiloxane)","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanofabrication and Lithography Techniques","field":"Engineering","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"","keywords":"Materials science; Elastomer; Microcontact printing; Fabrication; Photolithography; Nanotechnology; Copper; Chemical vapor deposition; Electroless deposition; Electronic materials; Composite material; Metallurgy","score_opus":0.0034754121141855813,"score_gpt":0.2301989940753334,"score_spread":0.2267235819611478,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2024262551","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.58939344,0.0013912861,0.40720925,0.0000058851588,0.00012912277,0.00028105621,0.000042233954,0.00030503634,0.0012426913],"genre_scores_gemma":[0.9880011,0.00032306186,0.011530941,0.000010297592,0.000016172884,0.000025321715,0.000042006082,0.000025303185,0.000025812838],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991119,0.00002941276,0.00041805685,0.00012100789,0.00015828604,0.0001613641],"domain_scores_gemma":[0.99936956,0.000047739042,0.00018508625,0.00016093158,0.00020697435,0.000029709936],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000292152,0.00011728728,0.00025677934,0.00020332048,0.000016222803,0.000005325575,0.00010168566,0.00006160677,0.00003409161],"category_scores_gemma":[0.00004167955,0.00012101383,0.000038276045,0.00054864876,0.000036864974,0.0001494475,0.000008007933,0.000031840747,0.0000017063928],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032395437,0.000027741511,0.000065843065,0.000059363272,0.000030706397,6.4351454e-8,0.00006858928,0.000053178268,0.98565394,0.00088458863,0.00012606216,0.012997537],"study_design_scores_gemma":[0.00014566343,0.00006415565,0.0023419585,0.000016049806,0.000018885317,7.376523e-7,0.000019624222,0.000011524806,0.9949317,0.00043624066,0.001903822,0.000109612534],"about_ca_topic_score_codex":0.000019418623,"about_ca_topic_score_gemma":0.0000015767147,"teacher_disagreement_score":0.39860764,"about_ca_system_score_codex":0.000038800677,"about_ca_system_score_gemma":0.000008712254,"threshold_uncertainty_score":0.49348006},"labels":[],"label_agreement":null},{"id":"W2025978015","doi":"10.1002/adma.200903527","title":"Encapsulation of Conjugated Oligomers in Single‐Walled Carbon Nanotubes: Towards Nanohybrids for Photonic Devices","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon Nanotubes in Composites","field":"Materials Science","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Università degli Studi di Padova; Austrian Science Fund","keywords":"Carbon nanotube; Materials science; Nanotechnology; Conjugated system; Photonics; Encapsulation (networking); Polymer; Optoelectronics; Computer science","score_opus":0.011295852900628135,"score_gpt":0.26501165803242605,"score_spread":0.2537158051317979,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2025978015","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944923,0.00010935461,0.000038861883,0.000060169164,0.0034344562,0.0010554037,0.00014575449,0.00012901047,0.00053468545],"genre_scores_gemma":[0.98792046,0.00002169297,0.01152282,0.000062268795,0.000112100475,0.00022357522,0.000044162964,0.00005393138,0.00003898779],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974921,0.00010066291,0.00096401415,0.0005485215,0.00038709556,0.00050765945],"domain_scores_gemma":[0.99830425,0.0003280182,0.00044108555,0.0005351028,0.00031504943,0.000076481505],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00095598213,0.00030785633,0.0007098284,0.00021715526,0.000057856894,0.00007972359,0.0004325561,0.00017967077,0.0002990204],"category_scores_gemma":[0.000674122,0.00030108728,0.000083180414,0.0002628506,0.00018477505,0.00032477351,0.00011881521,0.00008347687,0.000009674535],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040231086,0.00010193129,0.00010815672,0.00016256025,0.000009459126,0.0000030300125,0.00022051444,0.00015700016,0.99790245,0.00040803308,0.000005052862,0.00051949586],"study_design_scores_gemma":[0.0017229668,0.00021183793,0.0005814808,0.00012293339,0.000028120714,0.00000841777,0.000043763644,0.00013044,0.99504876,0.0010167217,0.00075126876,0.00033326735],"about_ca_topic_score_codex":0.00042288424,"about_ca_topic_score_gemma":0.0003600295,"teacher_disagreement_score":0.011483959,"about_ca_system_score_codex":0.0001260129,"about_ca_system_score_gemma":0.00014344785,"threshold_uncertainty_score":0.99994415},"labels":[],"label_agreement":null},{"id":"W2026848424","doi":"10.1002/adma.200400183","title":"Preparation of the Novel Nanocomposite Co(OH)<sub>2</sub>/ Ultra‐Stable Y Zeolite and Its Application as a Supercapacitor with High Energy Density","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":543,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Algonquin College","funders":"","keywords":"Materials science; Supercapacitor; Nanocomposite; Zeolite; Whisker; Whiskers; Capacitance; Electrolyte; Electrochemistry; Chemical engineering; Nanometre; Nucleation; Diffusion; Nanotechnology; Composite material; Electrode; Physical chemistry; Organic chemistry; Catalysis","score_opus":0.00630003463284724,"score_gpt":0.2254800248541057,"score_spread":0.21917999022125847,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2026848424","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950414,0.000048977356,0.0032719092,0.00008869738,0.0005073932,0.0006930988,0.00019941122,0.000086075765,0.00006305411],"genre_scores_gemma":[0.99777794,0.000074493866,0.0015279308,0.0001150872,0.0001707243,0.00022851197,0.00005470014,0.000034974386,0.000015663582],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982027,0.00009856847,0.00049062364,0.00049859326,0.00040338506,0.00030613283],"domain_scores_gemma":[0.9987614,0.000048800168,0.00032196197,0.00048045217,0.00030944817,0.000077949255],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000358988,0.00026191113,0.0003932941,0.000053618325,0.00024806507,0.000112323134,0.00023538202,0.0001212962,0.000027480946],"category_scores_gemma":[0.00005760893,0.00019082897,0.000033542903,0.00017169706,0.0001658278,0.00070826395,0.000051307074,0.000038419363,0.000032222986],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037211203,0.00008852518,0.000016769596,0.00007162891,0.000009842962,5.114271e-7,0.00030682058,0.00022102488,0.9772114,0.021629684,0.0000036939184,0.00006794782],"study_design_scores_gemma":[0.0009384196,0.00016381213,0.0014488419,0.00009234138,0.000036679583,0.000047365913,0.000044701777,0.0000029948942,0.9943495,0.0024897452,0.0001414726,0.00024411929],"about_ca_topic_score_codex":0.00046407752,"about_ca_topic_score_gemma":0.000046067496,"teacher_disagreement_score":0.019139938,"about_ca_system_score_codex":0.00011924549,"about_ca_system_score_gemma":0.000088162196,"threshold_uncertainty_score":0.778178},"labels":[],"label_agreement":null},{"id":"W2027568500","doi":"10.1002/adma.200690082","title":"Cover Picture: Protein Detecting Arrays Based on Cationic Polythiophene–DNA‐Aptamer Complexes (Adv. Mater. 20/2006)","year":2006,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Aptamer; Polythiophene; Biochip; Materials science; Cationic polymerization; DNA; Cover (algebra); Oligonucleotide; Fluorescence; Polymer; Nanotechnology; Crystallography; Polymer chemistry; Conductive polymer; Chemistry; Molecular biology; Biochemistry; Optics; Biology","score_opus":0.007605530301203386,"score_gpt":0.26111403334245287,"score_spread":0.2535085030412495,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2027568500","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.87495404,0.00193807,0.045699306,0.00075849146,0.0054964283,0.0065822,0.011410071,0.0008680959,0.05229331],"genre_scores_gemma":[0.91211754,0.00014865967,0.015649527,0.0010297946,0.0014788972,0.0002892731,0.009033158,0.00024969017,0.06000345],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.996385,0.0002448549,0.00088092027,0.0012810569,0.00047752744,0.0007306687],"domain_scores_gemma":[0.9974222,0.000030421668,0.0009155978,0.0011971691,0.00032341277,0.00011120873],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003073503,0.00092223316,0.00094770925,0.00020163893,0.00030554086,0.00017379613,0.00043545145,0.000856136,0.00029715645],"category_scores_gemma":[0.00011695456,0.00082785886,0.0002805969,0.00020364475,0.00019551735,0.000014381369,0.00013871018,0.00026777244,0.0004147558],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035083145,0.00008742543,9.286689e-7,0.00016551036,0.00007754169,0.0000060101297,0.0000032474547,0.0014203147,0.97561777,0.000011028631,0.021768726,0.0004906516],"study_design_scores_gemma":[0.0005358019,0.0003417577,0.000007038403,0.00031224432,0.0000747113,0.000008158511,0.000006332733,0.00001421909,0.83924514,0.00009892227,0.15851758,0.0008380645],"about_ca_topic_score_codex":0.00005301826,"about_ca_topic_score_gemma":0.000037989215,"teacher_disagreement_score":0.13674887,"about_ca_system_score_codex":0.00015362854,"about_ca_system_score_gemma":0.0001863563,"threshold_uncertainty_score":0.99941725},"labels":[],"label_agreement":null},{"id":"W2028166503","doi":"10.1002/adma.200790106","title":"Cover Picture: Fabrication of Elastomeric Wires by Selective Electroless Metallization of Poly(dimethylsiloxane) (Adv. Mater. 1/2008)","year":2007,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"","keywords":"Materials science; Fabrication; Elastomer; Electrical conductor; Flexible electronics; Composite material; Nanotechnology; Electrically conductive; Biocompatible material; Electronics; Biomedical engineering","score_opus":0.006127384680843015,"score_gpt":0.23655003088579238,"score_spread":0.23042264620494937,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2028166503","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.65744007,0.02209785,0.26704136,0.000014504455,0.013829329,0.0022566724,0.0061374344,0.0009408869,0.030241886],"genre_scores_gemma":[0.973923,0.005033719,0.0068795737,0.000047060006,0.00045849665,0.00012694173,0.0031819833,0.00040900803,0.009940178],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99662465,0.00016388862,0.001478632,0.00055172155,0.0005248995,0.0006562188],"domain_scores_gemma":[0.99764043,0.00016316593,0.001033085,0.00054007734,0.00051979255,0.000103436636],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00033794274,0.0007628496,0.0016736859,0.0003867563,0.000062251966,0.00004175703,0.00037121284,0.00055835815,0.0012248512],"category_scores_gemma":[0.00015100601,0.00077849877,0.00013205144,0.0005588147,0.00013357261,0.00036942266,0.00005565011,0.00019051708,0.00025850692],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020950798,0.00004573679,8.5666164e-7,0.0010120064,0.00022775831,0.0000011684996,0.00008180704,0.055919115,0.9318745,0.00005277153,0.009348745,0.0012260382],"study_design_scores_gemma":[0.00052500755,0.0001439202,0.00004146667,0.00025485057,0.000137767,0.0000070365295,0.000015570778,0.000024784908,0.97333634,0.00015455442,0.024719428,0.0006392622],"about_ca_topic_score_codex":0.00006535859,"about_ca_topic_score_gemma":0.0000028900167,"teacher_disagreement_score":0.31648296,"about_ca_system_score_codex":0.00024237453,"about_ca_system_score_gemma":0.0000609604,"threshold_uncertainty_score":0.99968815},"labels":[],"label_agreement":null},{"id":"W2029247488","doi":"10.1002/adma.201400846","title":"Nanosecond Intersystem Crossing Times in Fullerene Acceptors: Implications for Organic Photovoltaic Diodes","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Engineering and Physical Sciences Research Council","keywords":"Intersystem crossing; Fullerene; Nanosecond; Exciton; Materials science; Organic solar cell; Photochemistry; Singlet state; Diode; Singlet fission; Chemical physics; Optoelectronics; Atomic physics; Chemistry; Excited state; Physics; Polymer; Optics; Organic chemistry; Condensed matter physics; Laser","score_opus":0.007384600365309994,"score_gpt":0.23277706097261122,"score_spread":0.22539246060730123,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2029247488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992183,0.0002860623,0.0057373927,0.000027866898,0.00061390386,0.00048366995,0.000078390054,0.00023126666,0.00035840116],"genre_scores_gemma":[0.9979691,0.000054247546,0.0013916532,0.00004479797,0.0001136779,0.00018473482,0.000048555954,0.000081929655,0.00011129643],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988877,0.000024226525,0.00039986192,0.00023499757,0.000058528454,0.0003946957],"domain_scores_gemma":[0.9994099,0.000111891495,0.0000696389,0.00029898135,0.000055924895,0.000053659936],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002567787,0.00020094513,0.00033160058,0.00008011383,0.000102904734,0.00016414412,0.000193889,0.00009558758,0.00031341772],"category_scores_gemma":[0.000082353356,0.00020660201,0.000039978993,0.00014263524,0.000026981486,0.00018601908,0.00003363931,0.00006418248,0.00002717351],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014039209,0.000010888122,0.00005320707,0.00014437945,0.00001555017,1.045401e-7,0.00011583584,0.00018104962,0.9976727,0.0006188423,0.00019175556,0.0009816673],"study_design_scores_gemma":[0.00056569616,0.000052675656,0.00039174347,0.00006950644,0.00000922262,0.0000038609974,0.000021660406,0.00021644295,0.983845,0.003482,0.011104204,0.0002379652],"about_ca_topic_score_codex":0.0000124396975,"about_ca_topic_score_gemma":0.000140073,"teacher_disagreement_score":0.013827658,"about_ca_system_score_codex":0.00017873457,"about_ca_system_score_gemma":0.000036141395,"threshold_uncertainty_score":0.84249854},"labels":[],"label_agreement":null},{"id":"W2029909614","doi":"10.1002/adma.200401290","title":"Novel Peripherally Substituted Indolo[3,2‐<i>b</i>]carbazoles for High‐Mobility Organic Thin‐Film Transistors","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada)","funders":"","keywords":"Transistor; Carbazole; Materials science; Thin-film transistor; Organic semiconductor; Electron mobility; Thin film; Optoelectronics; Terrace (agriculture); Semiconductor; Nanotechnology; Layer (electronics); Organic chemistry; Electrical engineering; Chemistry; History","score_opus":0.006541855041977751,"score_gpt":0.20418631522856323,"score_spread":0.1976444601865855,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2029909614","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98768926,0.0005903374,0.008935775,0.0001084818,0.0011076191,0.00063903973,0.00029362596,0.0005288803,0.000106965126],"genre_scores_gemma":[0.99119365,0.00024611337,0.007709614,0.00015006412,0.00031152624,0.00011102375,0.00009389015,0.00010997562,0.00007415565],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99851644,0.000015868502,0.00045664172,0.00031877047,0.00016996525,0.00052233133],"domain_scores_gemma":[0.9993207,0.00005904198,0.00006241304,0.00035676907,0.00010837538,0.00009270383],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002766925,0.00030924485,0.000423975,0.00004497122,0.00011157077,0.00005818463,0.0002442212,0.00016643986,0.0004617297],"category_scores_gemma":[0.000055269677,0.0003157131,0.00006895518,0.00014122465,0.000040129857,0.00027825148,0.000018346864,0.00012238006,0.000024560846],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006288006,0.00005620475,0.0000036843314,0.000113044254,0.00004645283,5.4716304e-7,0.00021047668,0.00882529,0.9888672,0.0012758822,0.00015349589,0.00038483288],"study_design_scores_gemma":[0.0011975471,0.000055538847,0.0001925056,0.00001995981,0.000035421323,0.0000063180405,0.000017528295,0.00036343344,0.97891784,0.00059618376,0.018222008,0.00037571628],"about_ca_topic_score_codex":0.000022319007,"about_ca_topic_score_gemma":0.00031997965,"teacher_disagreement_score":0.018068513,"about_ca_system_score_codex":0.0003160763,"about_ca_system_score_gemma":0.00007727667,"threshold_uncertainty_score":0.9999295},"labels":[],"label_agreement":null},{"id":"W2031286131","doi":"10.1002/adma.201301288","title":"Enhanced Efficiency of Single and Tandem Organic Solar Cells Incorporating a Diketopyrrolopyrrole‐Based Low‐Bandgap Polymer by Utilizing Combined ZnO/Polyelectrolyte Electron‐Transport Layers","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":116,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Materials science; Tandem; Energy conversion efficiency; Polymer; Polyelectrolyte; Band gap; Organic solar cell; Polymer solar cell; Hybrid solar cell; Optoelectronics; Electron transport chain; Layer (electronics); Nanotechnology; Chemical engineering; Composite material","score_opus":0.003219072868980424,"score_gpt":0.17916506854190514,"score_spread":0.1759459956729247,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2031286131","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99324656,0.0010759477,0.004272873,0.000030274394,0.00025945788,0.00059051934,0.000045775832,0.00027427517,0.0002043446],"genre_scores_gemma":[0.9990577,0.00017923763,0.00033361357,0.00010255229,0.000039215985,0.00005864015,0.000043611482,0.00013292483,0.00005248299],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99768597,0.00005092149,0.0007271568,0.0004171655,0.00029504555,0.00082373567],"domain_scores_gemma":[0.99906987,0.00008876997,0.00024157758,0.00034099334,0.00011127118,0.00014750572],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026628366,0.00044045653,0.0006697867,0.000114759896,0.00012692047,0.000058490867,0.00023408087,0.00019439249,0.0002981195],"category_scores_gemma":[0.000024070281,0.00045320412,0.00006333369,0.00037134238,0.00008505984,0.00021831886,0.00002873926,0.00020906009,0.000013464445],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005223051,0.000080375336,0.000026673513,0.00016991295,0.000042551095,0.0000014385314,0.0001036595,0.0003316853,0.9989839,0.000039150727,0.000036925434,0.0001314572],"study_design_scores_gemma":[0.0012349936,0.0005117619,0.000028019835,0.00007507038,0.00003866905,0.0000022807365,0.000034269073,0.0009830849,0.9963174,0.00026324188,0.000053808737,0.00045743745],"about_ca_topic_score_codex":0.00006321571,"about_ca_topic_score_gemma":0.000029222794,"teacher_disagreement_score":0.005811189,"about_ca_system_score_codex":0.00013631766,"about_ca_system_score_gemma":0.000096380136,"threshold_uncertainty_score":0.999792},"labels":[],"label_agreement":null},{"id":"W2032280829","doi":"10.1002/adma.200305593","title":"Light‐Absorption Phenomena in Novel Low‐Reflectance Cathodes for Organic Light‐Emitting Devices Utilizing Metal–Organic Mixtures","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada); Western University","funders":"","keywords":"Materials science; Cathode; Absorption (acoustics); Surface plasmon resonance; Layer (electronics); Metal; Optoelectronics; Reflectivity; Diffuse reflection; Nanoparticle; Surface plasmon; Optics; Plasmon; Nanotechnology; Composite material; Metallurgy; Chemistry","score_opus":0.01717788321830536,"score_gpt":0.27235598085600743,"score_spread":0.25517809763770205,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2032280829","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98886275,0.0024959834,0.00412537,0.00009286464,0.0012369971,0.0010263147,0.000029600837,0.0005752643,0.001554828],"genre_scores_gemma":[0.9841697,0.00019953925,0.014587406,0.00006628682,0.00034769112,0.00020943588,0.000018336248,0.00023907659,0.00016250982],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968314,0.00012237414,0.00090784463,0.0006755563,0.00040144875,0.0010613842],"domain_scores_gemma":[0.9986255,0.00032254463,0.00018731462,0.00055302057,0.00017355765,0.00013805651],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0012833807,0.00050206995,0.0007303495,0.00027584433,0.00016816815,0.00018635881,0.00044329485,0.00022620802,0.00031146244],"category_scores_gemma":[0.0010813369,0.0005020989,0.00008257788,0.0006692623,0.000026060052,0.0006477348,0.0000769278,0.00023358232,0.00009332093],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003029549,0.000062141946,0.000040091152,0.0006476265,0.000056200668,0.0000043411587,0.0007691469,0.000119304976,0.99734724,0.00069859077,0.00002613686,0.00019889307],"study_design_scores_gemma":[0.0011318064,0.000054802935,0.0000589854,0.00025538018,0.000030959483,0.000014830271,0.00025044734,0.0001607793,0.99318945,0.00034892224,0.0039542834,0.00054933457],"about_ca_topic_score_codex":0.0000059789795,"about_ca_topic_score_gemma":0.00006783933,"teacher_disagreement_score":0.010462035,"about_ca_system_score_codex":0.0006368356,"about_ca_system_score_gemma":0.000121269426,"threshold_uncertainty_score":0.99974304},"labels":[],"label_agreement":null},{"id":"W2033619880","doi":"10.1002/1521-4095(20020205)14:3<221::aid-adma221>3.0.co;2-v","title":"Colloid Crystal Growth on Mesoscopically Patterned Surfaces: Effect of Confinement","year":2002,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Spectroscopy and Quantum Chemical Studies","field":"Physics and Astronomy","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Colloid; Colloidal crystal; Nanotechnology; Crystal growth; Crystal (programming language); Holography; Nanoscopic scale; Optics; Crystallography; Physical chemistry; Chemistry; Physics","score_opus":0.007027572334509234,"score_gpt":0.23970661907606491,"score_spread":0.23267904674155568,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2033619880","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99360824,0.00004016596,0.00011387452,0.000084333326,0.00021167111,0.00027728718,0.00013739007,0.000026795808,0.005500266],"genre_scores_gemma":[0.9994768,0.000014898955,0.00016225997,0.000044479417,0.00007648158,0.0000626626,0.000017194698,0.000013552605,0.00013165532],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99907106,0.000047849135,0.00027523105,0.00020716737,0.00017361902,0.00022504253],"domain_scores_gemma":[0.9994982,0.00014532745,0.00012844217,0.00014294348,0.000041956042,0.000043124488],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00009086472,0.00017853966,0.00040740208,0.000016359903,0.000054522767,0.000016566548,0.00010122607,0.000025146284,0.0044805626],"category_scores_gemma":[0.000021355017,0.0001351613,0.0000582025,0.000051133273,0.00005334284,0.00004336472,0.00004099,0.00004194388,0.000045118755],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014149415,0.00009046564,0.001397811,0.00005903983,0.000063170264,6.9112957e-7,0.000042830343,0.0000068854124,0.9947372,0.002783268,0.0003389319,0.00033820805],"study_design_scores_gemma":[0.0011509174,0.00056410633,0.0004286171,0.00006349705,0.000023063363,9.6695274e-8,0.000017540113,0.0000037072573,0.99639255,0.0006672439,0.000557535,0.00013112782],"about_ca_topic_score_codex":0.000048035734,"about_ca_topic_score_gemma":5.6366315e-7,"teacher_disagreement_score":0.005868599,"about_ca_system_score_codex":0.000019564837,"about_ca_system_score_gemma":0.000003168963,"threshold_uncertainty_score":0.9964295},"labels":[],"label_agreement":null},{"id":"W2035205905","doi":"10.1002/adma.200600369","title":"Conducting‐Polymer/Iron‐Redox‐ Couple Composite Cathodes for Lithium Secondary Batteries","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":403,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal","funders":"","keywords":"Materials science; Redox; Polypyrrole; Composite number; Electrode; Cathode; Lithium (medication); Polymer; Ferrocene; Conductive polymer; Pyrrole; Chemical engineering; Electrochemistry; Polymer chemistry; Inorganic chemistry; Composite material; Organic chemistry; Polymerization; Physical chemistry; Chemistry; Metallurgy","score_opus":0.022233773106586883,"score_gpt":0.27638714624990285,"score_spread":0.254153373143316,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2035205905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9543085,0.0005905265,0.034922756,0.000058541333,0.0065330775,0.0009257435,0.00077979104,0.0007842764,0.0010967896],"genre_scores_gemma":[0.95106107,0.00006214031,0.046200708,0.0005128886,0.00070459844,0.0002849815,0.00029474348,0.00021193203,0.00066696235],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976102,0.00003660267,0.0008711221,0.00043262632,0.00023029126,0.0008191646],"domain_scores_gemma":[0.9988265,0.00026610965,0.00018535994,0.00049315055,0.00011045451,0.000118447715],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000767738,0.00045145216,0.0006392914,0.00011669373,0.00019007298,0.00012900234,0.00030409088,0.0001450443,0.00076793035],"category_scores_gemma":[0.00007119898,0.0004792098,0.000050671857,0.00009549265,0.0001344827,0.00065922854,0.00009596704,0.00009431526,0.000079900856],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017121593,0.000024852905,0.000014276707,0.00046456614,0.000037187358,0.000008756308,0.00023612955,0.0006480883,0.99443805,0.00035596616,0.00094680453,0.0026540929],"study_design_scores_gemma":[0.0009728134,0.00008315886,0.000121858284,0.00007735849,0.000030608735,0.000024800902,0.00013917254,0.0000073329174,0.97636956,0.00089853554,0.020737942,0.00053682947],"about_ca_topic_score_codex":0.000008697211,"about_ca_topic_score_gemma":0.0000068526833,"teacher_disagreement_score":0.019791137,"about_ca_system_score_codex":0.00015176156,"about_ca_system_score_gemma":0.000021561056,"threshold_uncertainty_score":0.99976593},"labels":[],"label_agreement":null},{"id":"W2035367407","doi":"10.1002/adma.201101783","title":"Electron Acceptor Materials Engineering in Colloidal Quantum Dot Solar Cells","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":156,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Quantum dot; Materials science; Titanium dioxide; Solar cell; Electron acceptor; Lead sulfide; Nanotechnology; Acceptor; Electrode; Doping; Optoelectronics; Photochemistry; Chemistry; Physical chemistry; Metallurgy; Physics","score_opus":0.017598140030633615,"score_gpt":0.21967810621234454,"score_spread":0.20207996618171092,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2035367407","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964399,0.00016501971,0.000042126085,0.000021267308,0.0021936963,0.0004971655,0.000098151664,0.00022045146,0.00032225388],"genre_scores_gemma":[0.9962536,0.00021928182,0.002857435,0.000074406176,0.00018447255,0.00019364741,0.000009581621,0.00008479519,0.00012275508],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971613,0.00019799637,0.0008415404,0.0005828878,0.000329516,0.0008867137],"domain_scores_gemma":[0.999001,0.000077113196,0.0002484589,0.00047863647,0.000080875965,0.000113867645],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0012004653,0.00040682568,0.00072370155,0.0001796297,0.000101238715,0.00018937365,0.0005168612,0.00016442848,0.0078008473],"category_scores_gemma":[0.00015692615,0.00034959955,0.00005468901,0.00016012104,0.000071593,0.00071880745,0.00014840763,0.00008447202,0.00090383505],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041125427,0.00008047876,0.000012606968,0.00011159015,0.000007319665,0.000016927495,0.00046551178,0.000038235146,0.99763346,0.0009905657,0.000104403785,0.00012763427],"study_design_scores_gemma":[0.0005771336,0.00020410637,0.0005790364,0.00009370281,0.000013909938,0.000007909304,0.00006077114,0.000004032406,0.9952658,0.00043666954,0.0022774935,0.0004794517],"about_ca_topic_score_codex":0.00036202456,"about_ca_topic_score_gemma":0.000022208304,"teacher_disagreement_score":0.0068970122,"about_ca_system_score_codex":0.00012916718,"about_ca_system_score_gemma":0.00006897453,"threshold_uncertainty_score":0.9998956},"labels":[],"label_agreement":null},{"id":"W2036066157","doi":"10.1002/(sici)1521-4095(200001)12:2<110::aid-adma110>3.0.co;2-x","title":"Colloid Crystal Growth under Oscillatory Shear","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Biocrusts and Microbial Ecology","field":"Agricultural and Biological Sciences","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Colloid; Shear (geology); Colloidal crystal; Settling; Nanoparticle; Nanotechnology; Composite material; Chemical engineering; Mineralogy; Chemical physics; Thermodynamics","score_opus":0.007500267882172993,"score_gpt":0.19529384601336566,"score_spread":0.18779357813119266,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2036066157","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99476594,0.000058577905,5.131692e-7,0.00069107406,0.0003374434,0.00016568226,0.0001070997,0.00008327018,0.0037903746],"genre_scores_gemma":[0.9958993,0.00015050409,0.00014056776,0.0013020571,0.00022150498,0.000012882459,0.000034597586,0.000001426158,0.0022371567],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916,0.000046257763,0.00018253707,0.00024007578,0.00008430841,0.0002868263],"domain_scores_gemma":[0.9997675,0.000035682544,0.000042151325,0.00004310313,0.000043888827,0.00006770098],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012285702,0.00011778663,0.000187644,0.000004972911,0.00014483521,0.00004136833,0.00013309362,0.00010219399,0.022903528],"category_scores_gemma":[0.00001260338,0.00004665072,0.0000388994,0.00009188853,0.00006585878,0.000112381014,0.000031390733,0.000036774545,0.00039249266],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051753625,0.000026471069,0.000013293145,0.0000032168655,0.00000425781,0.0000018159405,0.000007552276,0.0000073641263,0.99121517,0.0005298671,0.0011585255,0.0069807423],"study_design_scores_gemma":[0.00035217646,0.0002875624,0.023376573,0.000012758284,0.000009104846,0.000022583923,0.000066784356,2.58555e-7,0.6265883,0.0024517293,0.34651807,0.00031414215],"about_ca_topic_score_codex":0.000120856836,"about_ca_topic_score_gemma":0.00012669495,"teacher_disagreement_score":0.36462688,"about_ca_system_score_codex":0.000031062402,"about_ca_system_score_gemma":0.0000083421055,"threshold_uncertainty_score":0.9779897},"labels":[],"label_agreement":null},{"id":"W2036227393","doi":"10.1002/adma.200903240","title":"Schottky Quantum Dot Solar Cells Stable in Air under Solar Illumination","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"George Brown College; University of Toronto","funders":"","keywords":"Materials science; Quantum dot; Optoelectronics; Quantum dot solar cell; Schottky diode; Schottky barrier; Energy conversion efficiency; Solar cell; Nanoparticle; Hybrid solar cell; Nanotechnology; Polymer solar cell","score_opus":0.013471407470851439,"score_gpt":0.24083500391138793,"score_spread":0.2273635964405365,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2036227393","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99503285,0.000099553785,0.00022340693,0.0002598466,0.003280393,0.00037201328,0.00008248499,0.00014338797,0.00050608127],"genre_scores_gemma":[0.995683,0.00013851124,0.0033583532,0.00023008104,0.00016369399,0.00008589728,0.0000124446115,0.000052754138,0.00027522648],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997684,0.00019565149,0.0005992074,0.0005282039,0.00039151745,0.0006014175],"domain_scores_gemma":[0.99886537,0.00012309263,0.00022899309,0.00053822773,0.00014662262,0.000097700846],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0016300222,0.0002822762,0.00045715735,0.0001476289,0.0001921891,0.0001485186,0.00038633164,0.00017726979,0.0030452947],"category_scores_gemma":[0.00022421998,0.00023519302,0.000046584322,0.00014999059,0.000154025,0.0010515448,0.00011260781,0.00016455552,0.0010420698],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000102583166,0.00008030616,0.000021914164,0.00006196563,0.000003156503,0.0000061671835,0.00016933902,0.00018599957,0.99616116,0.0024787707,0.000109367866,0.00061927916],"study_design_scores_gemma":[0.00042016146,0.00005972855,0.0010794338,0.00006087884,0.000009080542,0.0000050584053,0.00019896503,0.000035033434,0.9819619,0.0038824598,0.011942196,0.00034507093],"about_ca_topic_score_codex":0.00030803154,"about_ca_topic_score_gemma":0.0002920531,"teacher_disagreement_score":0.014199218,"about_ca_system_score_codex":0.00006603294,"about_ca_system_score_gemma":0.00009014499,"threshold_uncertainty_score":0.9997357},"labels":[],"label_agreement":null},{"id":"W2036872940","doi":"10.1002/adma.200802897","title":"Metal Chalcogenide Clusters on the Border between Molecules and Materials","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanocluster Synthesis and Applications","field":"Materials Science","cited_by":229,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Deutsche Forschungsgemeinschaft","keywords":"Nanoclusters; Chalcogenide; Materials science; Cluster (spacecraft); Chalcogen; Ternary operation; Nanotechnology; Selenide; Thermal decomposition; Metal; Supramolecular chemistry; Transition metal; Molecule; Nanoparticle; Crystal structure; Chemical physics; Crystallography; Catalysis; Selenium; Chemistry; Organic chemistry","score_opus":0.015269073797351217,"score_gpt":0.27645560161038407,"score_spread":0.26118652781303286,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2036872940","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99389285,0.00007380888,0.0005467887,0.0035826254,0.00026994455,0.00055632245,0.00024622225,0.00011115377,0.0007202824],"genre_scores_gemma":[0.9952093,0.000056074077,0.0028862008,0.0012857859,0.00021419395,0.00011926452,0.000018073202,0.000025706971,0.0001854008],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983074,0.00017072466,0.00043380653,0.000441458,0.00027292856,0.00037367822],"domain_scores_gemma":[0.9989477,0.00019743107,0.00020459108,0.0005121145,0.000055711385,0.00008246591],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00070362387,0.00025744946,0.0004006972,0.0000499307,0.00027624253,0.00023017148,0.00034349423,0.000060990846,0.0007478062],"category_scores_gemma":[0.00011568677,0.00016954566,0.00003881456,0.000088830915,0.0001073882,0.0002009986,0.00008990689,0.000040616866,0.00026233826],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003721056,0.000022995622,0.00000191707,0.000008457902,0.000008052192,0.0000016794061,0.00006154147,0.000005546767,0.9890852,0.008200484,0.00014977832,0.002417156],"study_design_scores_gemma":[0.00023760821,0.000079440506,0.0010448226,0.000035436962,0.00003493087,0.0000056529584,0.000043325268,6.1212324e-7,0.9896496,0.004371791,0.004280325,0.0002164526],"about_ca_topic_score_codex":0.000014402634,"about_ca_topic_score_gemma":0.0000019468757,"teacher_disagreement_score":0.0041305465,"about_ca_system_score_codex":0.00002736755,"about_ca_system_score_gemma":0.000018123837,"threshold_uncertainty_score":0.8187953},"labels":[],"label_agreement":null},{"id":"W2037159346","doi":"10.1002/1521-4095(200102)13:4<264::aid-adma264>3.0.co;2-l","title":"Nanotube Structure Revealed by High-Resolution X-ray Diffraction","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon Nanotubes in Composites","field":"Materials Science","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada); McMaster University","funders":"","keywords":"Materials science; Carbon nanotube; Diffraction; Resolution (logic); Nanotube; Tube (container); Concentric; X-ray crystallography; Nanotechnology; Fourier transform; Optics; Composite material; Physics; Geometry","score_opus":0.005536629376464587,"score_gpt":0.23543948273200166,"score_spread":0.22990285335553706,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2037159346","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9929844,0.00028916702,0.0008830844,0.0002763041,0.0041789007,0.00042694798,0.0003862068,0.0003577792,0.00021719022],"genre_scores_gemma":[0.99097514,0.00016336715,0.007140945,0.00027404533,0.00041273446,0.000055311175,0.00014724866,0.000054114105,0.0007771102],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975897,0.00018697631,0.00057025027,0.00060328026,0.00050860934,0.000541192],"domain_scores_gemma":[0.9986734,0.00013046026,0.00031465446,0.0006144997,0.00015918,0.00010785163],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00035757825,0.00031778973,0.00045366678,0.00008530325,0.00021933831,0.0001846636,0.00035403797,0.00018006361,0.0034716192],"category_scores_gemma":[0.00021797637,0.00029357467,0.00005154033,0.00021255795,0.00010293457,0.0006919298,0.00013140212,0.00009320067,0.0002885344],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002834785,0.00004402838,0.0000513681,0.000025522108,0.0000068748973,0.0000108675495,0.00003416184,0.00045336416,0.99581766,0.00032223214,0.0023198132,0.0006306477],"study_design_scores_gemma":[0.00081737136,0.00009448159,0.0016237829,0.000049613558,0.000026258062,0.000039878963,0.000014100073,0.000013533832,0.97561014,0.0020929435,0.019261193,0.0003566955],"about_ca_topic_score_codex":0.00016468785,"about_ca_topic_score_gemma":0.000021179234,"teacher_disagreement_score":0.020207493,"about_ca_system_score_codex":0.00025880485,"about_ca_system_score_gemma":0.000032606647,"threshold_uncertainty_score":0.99995166},"labels":[],"label_agreement":null},{"id":"W2037555565","doi":"10.1002/adma.200502136","title":"Fast Carbon Nanotube Charging and Actuation","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Carbon nanotube; Materials science; Supercapacitor; Millisecond; Carbon nanotube actuators; Nanotechnology; Electrochemistry; Electrode; Nanotube; Artificial muscle; Carbon nanotube quantum dot; Optoelectronics; Actuator; Electrical engineering; Optical properties of carbon nanotubes","score_opus":0.007871958299119498,"score_gpt":0.22125204085409386,"score_spread":0.21338008255497437,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2037555565","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967131,0.000115114766,0.00025827577,0.000099131554,0.0013319616,0.00023450919,0.00004391033,0.00016636614,0.0010376573],"genre_scores_gemma":[0.9971028,0.000028471854,0.002120585,0.00005710158,0.00043974564,0.000065398424,0.000038868828,0.000026881315,0.00012017727],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987615,0.000058582067,0.00034228907,0.0003394921,0.00022073637,0.00027740694],"domain_scores_gemma":[0.9994801,0.000037552796,0.00013425088,0.00022319496,0.000083836945,0.000041050116],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040192995,0.00017041263,0.00024368716,0.00005754256,0.00012273387,0.00017401436,0.00010069244,0.000070864546,0.00039530493],"category_scores_gemma":[0.00005392139,0.00015469616,0.00001590038,0.00006700549,0.000065976645,0.00038241607,0.00004773478,0.000022269445,0.00007245792],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000319969,0.000016298154,0.000047459205,0.000026995833,0.0000012097726,0.0000014446757,0.00009405102,0.000015138401,0.9975523,0.0014167804,0.000024975563,0.00077137724],"study_design_scores_gemma":[0.00033228248,0.00002909987,0.0030597858,0.00002794055,0.000010170118,0.000009775133,0.00006077932,0.00001126358,0.99331576,0.002259536,0.00069097016,0.0001926569],"about_ca_topic_score_codex":0.00033671598,"about_ca_topic_score_gemma":0.000011949175,"teacher_disagreement_score":0.004236533,"about_ca_system_score_codex":0.000059715832,"about_ca_system_score_gemma":0.000016791228,"threshold_uncertainty_score":0.6308326},"labels":[],"label_agreement":null},{"id":"W2038607072","doi":"10.1002/(sici)1521-4095(200004)12:8<603::aid-adma603>3.0.co;2-r","title":"Double Resonance NMR Echo Spectroscopy of Aluminosilicates","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced NMR Techniques and Applications","field":"Chemistry","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Steacie Institute for Molecular Sciences","funders":"","keywords":"Aluminosilicate; Nanoclusters; Materials science; Characterization (materials science); Nuclear magnetic resonance spectroscopy; Spectroscopy; Fluorine-19 NMR; Resonance (particle physics); Silicon; Nuclear magnetic resonance; Nanotechnology; Organic chemistry; Catalysis; Chemistry; Optoelectronics; Atomic physics","score_opus":0.01086760820585413,"score_gpt":0.2864731746383907,"score_spread":0.2756055664325366,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2038607072","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9599612,0.0003822074,0.00020342637,0.00008678961,0.000015639233,0.00018616537,0.00016534358,0.0003037229,0.038695548],"genre_scores_gemma":[0.9586051,0.0011759719,0.03525044,0.00005809113,0.00010119263,0.00027937687,0.000052705112,0.0000412209,0.0044358764],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988502,0.0000057946963,0.00038857723,0.00032788634,0.00015584807,0.0002716818],"domain_scores_gemma":[0.9991192,0.00003203158,0.0001456908,0.0005892729,0.000060982722,0.00005282218],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00007049007,0.00017157766,0.00029598086,0.000020704401,0.00006944739,0.000015529109,0.00027550085,0.000085461965,0.008699581],"category_scores_gemma":[0.000011494457,0.00016872802,0.00004801061,0.00010673902,0.000096092714,0.00014914166,0.000033858552,0.00006383192,0.00009836257],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016434872,0.000058633625,0.000021548312,0.000052358377,0.0000044668636,0.000001488137,0.00002293467,0.00006590907,0.989132,0.0014485094,0.00024411218,0.008783724],"study_design_scores_gemma":[0.00045015765,0.000020599997,0.00003254593,0.00005789611,0.000008196391,0.0000054980674,0.00001276838,0.000003612656,0.898836,0.006505865,0.09390752,0.00015932259],"about_ca_topic_score_codex":0.00003287629,"about_ca_topic_score_gemma":0.00000233291,"teacher_disagreement_score":0.09366341,"about_ca_system_score_codex":0.000045847264,"about_ca_system_score_gemma":0.000017898854,"threshold_uncertainty_score":0.9922066},"labels":[],"label_agreement":null},{"id":"W2040164235","doi":"10.1002/adma.200306361","title":"Dielectric Planar Defects in Colloidal Photonic Crystal Films","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Diatoms and Algae Research","field":"Materials Science","cited_by":125,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Planar; Photonic crystal; Dielectric; Colloidal crystal; Doping; Colloid; Optoelectronics; Photonics; Nanotechnology; Optics; Chemical engineering","score_opus":0.010207752035752396,"score_gpt":0.26764965278306607,"score_spread":0.25744190074731366,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2040164235","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968502,0.00022286332,0.00004652177,0.000046650683,0.00040020188,0.00043323092,0.00007571563,0.000099663695,0.0018249733],"genre_scores_gemma":[0.9974898,0.00010953246,0.0019231074,0.000097946366,0.00005460223,0.00012487307,0.000015380227,0.000031237432,0.00015353324],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980297,0.00007575293,0.00035146333,0.0004136092,0.00040601945,0.00072346855],"domain_scores_gemma":[0.9993868,0.0000689465,0.000093311624,0.0002774439,0.000056339883,0.00011714213],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00059017853,0.00019296563,0.00035286872,0.0001566605,0.000095273586,0.00014188365,0.00029772322,0.000084926796,0.0011883278],"category_scores_gemma":[0.00018008424,0.0001731388,0.000041072715,0.00033909947,0.00006879846,0.0003406806,0.00007328485,0.00008455095,0.00052141317],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013376551,0.00008715286,0.000043957818,0.000043314772,0.0000025070515,0.00007554307,0.00006313322,0.0004121549,0.9964981,0.0024999743,0.000044630597,0.000095781616],"study_design_scores_gemma":[0.001423866,0.00017807438,0.0010758163,0.00006411053,0.0000034812458,0.0000142801355,0.000040297175,0.0000018150224,0.99163246,0.004659911,0.0006859368,0.00021993656],"about_ca_topic_score_codex":0.00025691712,"about_ca_topic_score_gemma":0.00011087428,"teacher_disagreement_score":0.0048656096,"about_ca_system_score_codex":0.00018313958,"about_ca_system_score_gemma":0.00020340318,"threshold_uncertainty_score":0.99972475},"labels":[],"label_agreement":null},{"id":"W2043136052","doi":"10.1002/adma.200902148","title":"Recent Advances in White Organic Light‐Emitting Materials and Devices (WOLEDs)","year":2009,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":1045,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Mitel (Canada)","funders":"","keywords":"Materials science; Nanotechnology; Fabrication; OLED; Solid-state; White light; Polymer; Solid-state lighting; Optoelectronics; Engineering physics; Light-emitting diode; Engineering; Composite material","score_opus":0.01585448437819716,"score_gpt":0.3023618246989652,"score_spread":0.2865073403207681,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2043136052","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0025098084,0.9931711,0.000010610333,0.00003536444,0.0014679382,0.0013400187,0.00012464543,0.00052663375,0.00081385527],"genre_scores_gemma":[0.0008186711,0.9967886,0.0010870732,0.000028599607,0.00052691356,0.00019240394,0.00012121728,0.00031368036,0.00012279865],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99526364,0.000352216,0.0018721173,0.0009139716,0.00050018344,0.0010979039],"domain_scores_gemma":[0.9982699,0.00024821,0.00043502802,0.00074235874,0.00011008667,0.00019438019],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012362174,0.0010106482,0.0031862496,0.00048210597,0.00009664974,0.00035452563,0.00066547585,0.00056484406,0.0010075109],"category_scores_gemma":[0.000420933,0.0008976508,0.00009349583,0.00072676904,0.00005030246,0.00075990387,0.0002612373,0.0004132671,0.00027022092],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000147421,0.00003289763,0.0000036372414,0.0310784,0.000085754196,0.000070582915,0.00013553305,0.0000060030834,0.04862684,0.000038720937,0.00011694446,0.91978997],"study_design_scores_gemma":[0.00033037274,0.000045810102,0.0000048986026,0.013832376,0.00011859887,0.00005703622,0.000026840718,7.89455e-7,0.09015518,0.00004646134,0.89452237,0.00085928274],"about_ca_topic_score_codex":0.0000016805786,"about_ca_topic_score_gemma":0.000021656484,"teacher_disagreement_score":0.91893065,"about_ca_system_score_codex":0.0005400602,"about_ca_system_score_gemma":0.00012921305,"threshold_uncertainty_score":0.9999057},"labels":[],"label_agreement":null},{"id":"W2044434124","doi":"10.1002/adma.200400484","title":"Highly Ordered Nanosphere Imprinted Nanochannel Alumina (NINA)","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Anodic Oxide Films and Nanostructures","field":"Materials Science","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Nanotechnology; Nanosphere lithography; Nanoscopic scale; Phosphoric acid; Lithography; Nanolithography; Chemical engineering; Optoelectronics; Fabrication; Metallurgy","score_opus":0.005597665966185553,"score_gpt":0.22358770032797437,"score_spread":0.21799003436178882,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2044434124","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99394715,0.0002766153,0.0008054251,0.00034653812,0.0029752527,0.00041832443,0.00016989504,0.00037010506,0.0006906876],"genre_scores_gemma":[0.9828634,0.00007227898,0.015425239,0.0003480491,0.00021817116,0.0000674912,0.00003610528,0.00006368601,0.0009055763],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976561,0.00006416202,0.0005312622,0.00063781143,0.00042890979,0.0006817458],"domain_scores_gemma":[0.99873877,0.00003434233,0.00028851302,0.0005742544,0.00020032712,0.00016381925],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00030091166,0.00037728422,0.0005291652,0.000056164008,0.00020271269,0.00014370096,0.00047354895,0.00018149796,0.0028333946],"category_scores_gemma":[0.00020608657,0.000319309,0.000079288395,0.00018813412,0.00017712568,0.00044701592,0.0001952614,0.000079439465,0.00087403343],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016701972,0.00004035618,0.0000040245914,0.000044267963,0.000008459676,0.000037016976,0.00016059457,0.00015601894,0.99331766,0.005253682,0.00030214989,0.00050877244],"study_design_scores_gemma":[0.001530318,0.00018855419,0.00041183486,0.0000950434,0.000018678164,0.000044184617,0.000112767564,4.406785e-7,0.9781441,0.010241789,0.008796393,0.000415877],"about_ca_topic_score_codex":0.00026630142,"about_ca_topic_score_gemma":0.000040516054,"teacher_disagreement_score":0.015173517,"about_ca_system_score_codex":0.0001344562,"about_ca_system_score_gemma":0.00014675484,"threshold_uncertainty_score":0.9999259},"labels":[],"label_agreement":null},{"id":"W2044790444","doi":"10.1002/adma.200601613","title":"Robust and Flexible Free‐Standing All‐Dielectric Omnidirectional Reflectors","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic and Optical Devices","field":"Engineering","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Omnidirectional antenna; Dielectric; Chalcogenide; Reflection (computer programming); Membrane; Chalcogenide glass; Optoelectronics; Optics; Computer science; Antenna (radio); Telecommunications","score_opus":0.020421920618139983,"score_gpt":0.2550175687889934,"score_spread":0.2345956481708534,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2044790444","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9496067,0.0012667946,0.007013947,0.000023905393,0.001085079,0.00014919906,0.000016739968,0.0005585101,0.0402791],"genre_scores_gemma":[0.99246866,0.00044102033,0.006700184,0.00006279698,0.00011683527,0.000010188108,0.000007743895,0.000028583705,0.0001639703],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991736,0.000007875919,0.00020717087,0.00015552016,0.00012978486,0.00032608115],"domain_scores_gemma":[0.99965614,0.00008419961,0.000024289633,0.0001261964,0.000024805853,0.000084382584],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027922643,0.000129401,0.00017530951,0.00008042292,0.000056486748,0.00003918521,0.000080105885,0.00006690004,0.00017477096],"category_scores_gemma":[0.00006327553,0.000123548,0.000017336977,0.00014086484,0.00002315182,0.00018612735,0.000027722694,0.00006214254,0.00001761317],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004249658,0.000007637954,0.00002148714,0.00005286563,0.000028564054,0.000008100231,0.000035752266,0.0013471283,0.9906172,0.0061435103,0.00016478423,0.0015304444],"study_design_scores_gemma":[0.0003493795,0.00003851911,0.0011229479,0.000029197261,0.000014166865,0.000016095446,0.000019067415,0.0003026903,0.9820361,0.0027900666,0.013072652,0.00020912116],"about_ca_topic_score_codex":0.000009518096,"about_ca_topic_score_gemma":0.00002182224,"teacher_disagreement_score":0.042861953,"about_ca_system_score_codex":0.000095893294,"about_ca_system_score_gemma":0.0000071839186,"threshold_uncertainty_score":0.50381416},"labels":[],"label_agreement":null},{"id":"W2045562672","doi":"10.1002/adma.200601370","title":"Direct Printing of Bioceramic Implants with Spatially Localized Angiogenic Factors","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Bone Tissue Engineering Materials","field":"Engineering","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Centre hospitalier de l'Université Laval; Université Laval","funders":"","keywords":"Brushite; Bioceramic; Materials science; Nanotechnology; Biomedical engineering; Bone grafting; Metallurgy; Dentistry; Calcium","score_opus":0.0059526766616528,"score_gpt":0.21107175743992987,"score_spread":0.20511908077827706,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2045562672","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98902833,0.00014012666,0.008438695,0.0000015224886,0.0008953339,0.000298391,0.000085569365,0.0005914095,0.0005205951],"genre_scores_gemma":[0.99164784,0.000031251348,0.008069514,0.0000030610302,0.00007006054,0.000010711567,0.000030634506,0.00010483751,0.000032074364],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985715,0.00001874595,0.00053189753,0.00021013018,0.00021347511,0.00045426376],"domain_scores_gemma":[0.99936384,0.0000797109,0.00011952281,0.00030162346,0.000057158406,0.00007814623],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00038935913,0.0002863956,0.00054507697,0.00013646486,0.00002701973,0.000027648342,0.000158425,0.00009384085,0.00015838486],"category_scores_gemma":[0.00004892468,0.00024972486,0.000042120984,0.00016566891,0.00003750868,0.00015388952,0.000033887445,0.000042451957,0.000019370953],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007618532,0.000010462037,0.0001604178,0.00021056505,0.00007196891,0.000013485649,0.00011175948,0.012430868,0.98590595,0.000054147265,0.000007789607,0.0009463798],"study_design_scores_gemma":[0.0005170165,0.00006054198,0.004017366,0.000119928874,0.000026126283,0.000012280035,0.000018237894,0.00002254439,0.9942736,0.000021579157,0.00061655376,0.00029424395],"about_ca_topic_score_codex":0.000049068498,"about_ca_topic_score_gemma":0.00002172042,"teacher_disagreement_score":0.012408324,"about_ca_system_score_codex":0.000072677925,"about_ca_system_score_gemma":0.000013597207,"threshold_uncertainty_score":0.99999547},"labels":[],"label_agreement":null},{"id":"W2045895469","doi":"10.1002/adma.200401806","title":"Organic Light‐Emitting Diodes based on Charge‐Neutral Ru<sup>II</sup> Phosphorescent Emitters","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":157,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Steacie Institute for Molecular Sciences","funders":"","keywords":"Phosphorescence; Materials science; Diode; OLED; Brightness; Optoelectronics; Fabrication; Characterization (materials science); Phosphorescent organic light-emitting diode; Charge (physics); Photochemistry; Nanotechnology; Optics; Fluorescence; Chemistry; Physics","score_opus":0.006381388423402898,"score_gpt":0.22305441251430608,"score_spread":0.21667302409090317,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2045895469","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99467665,0.00033375964,0.000180301,0.0007379099,0.00073073694,0.0005817108,0.00008036994,0.0010417076,0.0016368252],"genre_scores_gemma":[0.99487257,0.00014308977,0.0030128676,0.000447327,0.00069744955,0.00009200295,0.000051864066,0.00025618207,0.00042665788],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9966795,0.00008953582,0.00074866915,0.00064496236,0.0006316069,0.0012057183],"domain_scores_gemma":[0.99857146,0.00014888961,0.000108569286,0.0008297495,0.00010726404,0.00023407768],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00063023734,0.00056339643,0.0006197322,0.00020719663,0.0002672766,0.00017310906,0.0005876358,0.00022065354,0.0015376471],"category_scores_gemma":[0.0002745147,0.00054578914,0.000117323856,0.00035940882,0.000054705743,0.00039662913,0.00014956096,0.0003508737,0.0012010619],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007580641,0.000096790915,0.000056643257,0.00019434425,0.00004985219,0.000020287282,0.00052364636,0.006813309,0.9891315,0.00008289803,0.0016217534,0.0013331603],"study_design_scores_gemma":[0.0010953743,0.000112081434,0.00007372451,0.00023090836,0.000021826036,0.000007364668,0.000055600263,0.004530614,0.96884567,0.000011167425,0.024444012,0.0005716863],"about_ca_topic_score_codex":0.0000069521807,"about_ca_topic_score_gemma":0.0000021300405,"teacher_disagreement_score":0.022822259,"about_ca_system_score_codex":0.0006578058,"about_ca_system_score_gemma":0.00006271515,"threshold_uncertainty_score":0.99969935},"labels":[],"label_agreement":null},{"id":"W2045931942","doi":"10.1002/adma.201203759","title":"Self‐Assembled, Nanowire Network Electrodes for Depleted Bulk Heterojunction Solar Cells","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":107,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"China Scholarship Council; King Abdullah University of Science and Technology","keywords":"Materials science; Electrode; Nanowire; Quantum dot; Heterojunction; Nanotechnology; Optoelectronics; Physics","score_opus":0.00988617148697531,"score_gpt":0.21403595725480246,"score_spread":0.20414978576782714,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2045931942","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99226415,0.0004269172,0.0024720216,0.0001732681,0.0026935071,0.0012698635,0.000029644596,0.0004268646,0.000243767],"genre_scores_gemma":[0.97053313,0.0002575791,0.027058797,0.0003120296,0.00061422115,0.0009283246,0.000015482807,0.00007899293,0.00020143014],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99767965,0.00017286827,0.00055494695,0.0005267306,0.00025819417,0.0008075957],"domain_scores_gemma":[0.99879014,0.0001661472,0.00026356027,0.0004277746,0.00025083515,0.00010151034],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006848038,0.000323201,0.00050870056,0.00005095108,0.00037276343,0.0003815294,0.00030006212,0.00013927648,0.0012661816],"category_scores_gemma":[0.00009934645,0.00025362603,0.00008989478,0.000104513216,0.00003065272,0.00076462014,0.000070219336,0.000047540278,0.0009328016],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016183424,0.000042677428,0.0000037565164,0.00013888815,0.00001658807,6.544626e-7,0.000057146422,0.0001760304,0.9953107,0.0002886177,0.0025979204,0.0012051726],"study_design_scores_gemma":[0.00042123545,0.00025761584,0.000030979012,0.0000577619,0.000031619602,0.000005247737,0.000023086424,0.00011461853,0.9584417,0.0032066652,0.03705957,0.0003499505],"about_ca_topic_score_codex":0.000080095284,"about_ca_topic_score_gemma":0.000014764441,"teacher_disagreement_score":0.036869064,"about_ca_system_score_codex":0.000078473895,"about_ca_system_score_gemma":0.00004726604,"threshold_uncertainty_score":0.9999916},"labels":[],"label_agreement":null},{"id":"W2046258330","doi":"10.1002/adma.200904231","title":"Exploring Primary Liver Macrophages for Studying Quantum Dot Interactions with Biological Systems","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Drug Delivery Systems","field":"Pharmacology, Toxicology and Pharmaceutics","cited_by":84,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"In vivo; Quantum dot; Materials science; Primary (astronomy); In vitro; Nanotechnology; Quantum; Kinetics; Nanoparticle; Biophysics; Biology; Biochemistry; Physics; Quantum mechanics","score_opus":0.3087280981023151,"score_gpt":0.4243540280305443,"score_spread":0.11562592992822918,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2046258330","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98336756,0.0003727765,0.0021197426,0.000064294,0.011329696,0.001796869,0.00029759866,0.00032367854,0.0003277583],"genre_scores_gemma":[0.9922852,0.00038204071,0.0036309888,0.00021608436,0.00087655254,0.002119739,0.000070908056,0.000065649314,0.0003528263],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978126,0.0002863899,0.0005750181,0.00055495073,0.00017015733,0.00060085236],"domain_scores_gemma":[0.99798405,0.0008864696,0.00033964607,0.00033666025,0.00027431472,0.00017885081],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007930692,0.00035741102,0.0005801199,0.0001133663,0.0004285738,0.00006697737,0.00029482885,0.00017826387,0.0002911035],"category_scores_gemma":[0.00015048771,0.00028092082,0.00006857025,0.00012922536,0.00018001844,0.00073451817,0.00011007985,0.00047767695,0.00013430869],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012056428,0.00016159158,0.00031225718,0.00019860604,0.00013096235,0.000052892945,0.0003262686,0.0012991099,0.98929346,0.00225767,0.00015661946,0.0046049035],"study_design_scores_gemma":[0.003440118,0.0005665582,0.0014613242,0.0001272263,0.00015322019,0.00025569854,0.0011498801,0.00028619074,0.73037714,0.00017366876,0.2611976,0.0008114028],"about_ca_topic_score_codex":0.000020116086,"about_ca_topic_score_gemma":0.000014460762,"teacher_disagreement_score":0.26104096,"about_ca_system_score_codex":0.000109135195,"about_ca_system_score_gemma":0.000047538924,"threshold_uncertainty_score":0.9999643},"labels":[],"label_agreement":null},{"id":"W2047598940","doi":"10.1002/adma.200401474","title":"Ferrocene‐Functionalized Cationic Polythiophene for the Label‐Free Electrochemical Detection of DNA","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":121,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Cationic polymerization; Polythiophene; Ferrocene; Peptide nucleic acid; Materials science; Nucleic acid; DNA; Combinatorial chemistry; Polymer; Electrochemistry; Conductive polymer; Nanotechnology; Polymer chemistry; Electrode; Chemistry; Biochemistry; Physical chemistry","score_opus":0.008352985064014298,"score_gpt":0.26836732767225063,"score_spread":0.26001434260823636,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2047598940","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9488941,0.0007795874,0.0489498,0.0006277026,0.00014967762,0.0003961432,0.00006641558,0.00005503722,0.0000815779],"genre_scores_gemma":[0.9842557,0.00031694688,0.014327871,0.00022099922,0.00034478938,0.000080844766,0.00010267332,0.000019183764,0.0003310429],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916637,0.000025347532,0.0002682382,0.00024071071,0.0001235615,0.00017575578],"domain_scores_gemma":[0.9991541,0.000034765028,0.00017061696,0.00038935096,0.00022635033,0.000024842053],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020326096,0.00012808484,0.00016577677,0.000026107653,0.00010459725,0.000011971677,0.00016238893,0.00010728622,0.000008255629],"category_scores_gemma":[0.00028743214,0.00009488865,0.00007315382,0.0000801012,0.0000690921,0.000007065676,0.00004803528,0.000031129468,0.0000010761554],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043349594,0.000033195713,0.000001034572,0.0000110656865,0.00004681972,3.0708783e-8,0.0000032075764,0.000010221893,0.9912359,0.000119815566,0.00011166626,0.007993547],"study_design_scores_gemma":[0.0006657357,0.00015550408,0.000030525745,0.000007326337,0.00005115585,0.0000072544067,0.0000083611685,0.000018031405,0.9789999,0.0008274745,0.019112255,0.00011644321],"about_ca_topic_score_codex":0.0000038215535,"about_ca_topic_score_gemma":0.000033333337,"teacher_disagreement_score":0.03536159,"about_ca_system_score_codex":0.00003165705,"about_ca_system_score_gemma":0.00003460096,"threshold_uncertainty_score":0.38694468},"labels":[],"label_agreement":null},{"id":"W2048543486","doi":"10.1002/adma.200501055","title":"Redox‐Tunable Defects in Colloidal Photonic Crystals","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Redox; Polymer; Planar; Ferrocene; Photonics; Laser; Photonic crystal; Colloid; Nanotechnology; Solid-state; Wavelength; Optoelectronics; Colloidal crystal; Electrode; Photochemistry; Chemical engineering; Optics; Electrochemistry; Composite material; Engineering physics; Chemistry","score_opus":0.005992025140904605,"score_gpt":0.251262322360744,"score_spread":0.24527029721983937,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2048543486","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98254323,0.00006602062,0.00022692725,0.00011408938,0.000091920316,0.0004584026,0.00014212371,0.000046393678,0.016310913],"genre_scores_gemma":[0.99644685,0.0000137568895,0.0016978461,0.00007449254,0.00015158461,0.0003768833,0.000048681046,0.00002409648,0.0011658386],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989007,0.000025748112,0.00032321402,0.00027781626,0.00011712572,0.000355378],"domain_scores_gemma":[0.999451,0.000036660473,0.00011237892,0.00029616017,0.000037592425,0.00006619714],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00018678742,0.00015512537,0.00026189192,0.000046252884,0.000080991675,0.000056651792,0.00014966805,0.000034207766,0.0024041135],"category_scores_gemma":[0.0000071584564,0.00015577112,0.00004719443,0.00015064396,0.000029201898,0.00022115506,0.000056094294,0.000059822887,0.0001392285],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000018419767,0.00010075551,0.00013255764,0.000008164449,0.0000074035283,7.264642e-7,0.00005719427,0.00053100614,0.9884865,0.008923612,0.00026910912,0.0014644954],"study_design_scores_gemma":[0.0007733883,0.000017146274,0.00034112672,0.000026716274,0.0000069647353,8.794863e-7,0.000096415686,0.0000186289,0.895323,0.0075965156,0.09560801,0.00019123593],"about_ca_topic_score_codex":0.0001128167,"about_ca_topic_score_gemma":0.000032461747,"teacher_disagreement_score":0.0953389,"about_ca_system_score_codex":0.000075226,"about_ca_system_score_gemma":0.00006732743,"threshold_uncertainty_score":0.9985078},"labels":[],"label_agreement":null},{"id":"W2048723682","doi":"10.1002/adma.200602730","title":"Nanoporous Pt‐Ru Networks and Their Electrocatalytical Properties","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":135,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Lakehead University","funders":"","keywords":"Nanoporous; Ruthenium; Materials science; Platinum; Electrochemistry; Methanol; Chemical engineering; Nanotechnology; Inorganic chemistry; Catalysis; Electrode; Physical chemistry; Organic chemistry; Chemistry","score_opus":0.00682367382893292,"score_gpt":0.2056040313388712,"score_spread":0.19878035750993828,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2048723682","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99297756,0.001000743,0.0021478923,0.000088460496,0.00043047563,0.00016992516,0.0000010316393,0.00027501053,0.0029089125],"genre_scores_gemma":[0.99820143,0.00019583106,0.00033491256,0.00026243884,0.00023286075,0.000018465447,0.000038905375,0.00006215506,0.00065297884],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99829185,0.000039983457,0.0003729137,0.0003943706,0.00021133827,0.0006895427],"domain_scores_gemma":[0.9992356,0.00006875016,0.000105684565,0.00033980794,0.0001250152,0.00012514512],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00058402837,0.00028348673,0.00035713907,0.000082425795,0.00014355827,0.00005286925,0.00018430011,0.00015479045,0.00008212825],"category_scores_gemma":[0.00011711355,0.00021307434,0.00004057696,0.00015550073,0.000115793264,0.00028559787,0.00010632981,0.00010260264,0.00004215459],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037024054,0.00002569846,0.00000965593,0.000022345535,0.000035634843,0.000013684773,0.000080290694,0.0002754849,0.9786586,0.0085005015,0.000053991662,0.011953839],"study_design_scores_gemma":[0.000491226,0.00015917992,0.00009435433,0.000032990647,0.000016146601,0.00006311485,0.000069695554,0.000051720155,0.9843478,0.001404776,0.012984882,0.00028408162],"about_ca_topic_score_codex":0.00015130853,"about_ca_topic_score_gemma":0.00035557782,"teacher_disagreement_score":0.012930891,"about_ca_system_score_codex":0.00014959887,"about_ca_system_score_gemma":0.000034744644,"threshold_uncertainty_score":0.86889195},"labels":[],"label_agreement":null},{"id":"W2049253436","doi":"10.1002/adma.201000609","title":"A Gold Marker Technique Revealing Phase‐Specific Wear and Sub‐Surface Deformation with Nanometer Resolution","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Tribology and Wear Analysis","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Materials science; Rubbing; Nanometre; Silicon; Aluminium; Phase (matter); Gold alloys; Resolution (logic); Nanotechnology; Phase imaging; Surface (topology); Deformation (meteorology); Composite material; Metallurgy; Optics; Microscopy; Geometry","score_opus":0.004343075215363591,"score_gpt":0.20887007235024366,"score_spread":0.20452699713488007,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2049253436","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9757369,0.00010494164,0.023314802,0.000023185861,0.00017553629,0.00019599759,0.000028984503,0.00018354003,0.00023611565],"genre_scores_gemma":[0.97278476,0.00017338293,0.026852738,0.0000109516295,0.000036686823,0.00003495643,0.000037272035,0.000021966416,0.000047310336],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9994152,0.00002535032,0.00018816664,0.00013211262,0.00007273991,0.00016641448],"domain_scores_gemma":[0.9996852,0.000021741544,0.000044826735,0.0001797829,0.000033321037,0.000035076817],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030037708,0.00011610965,0.0001790646,0.000064714506,0.000049101363,0.000030928673,0.000048824717,0.0001033221,0.000080972706],"category_scores_gemma":[0.00001418156,0.00009888109,0.000016592434,0.00011131334,0.000037896978,0.00027605717,0.000013758086,0.000096724805,0.00002355603],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007882341,0.00000700339,0.000030058409,0.00003566985,0.000017976223,0.0000012634148,0.000039598093,0.0005864036,0.9981919,0.00009598264,0.00008219633,0.0008331197],"study_design_scores_gemma":[0.00043597806,0.000029606634,0.00051941694,0.00003152618,0.000022023907,0.000025757265,0.000011098419,0.00013548018,0.9915894,0.00020331428,0.006840749,0.0001556236],"about_ca_topic_score_codex":0.0000035142355,"about_ca_topic_score_gemma":0.000016918068,"teacher_disagreement_score":0.006758553,"about_ca_system_score_codex":0.000020824726,"about_ca_system_score_gemma":0.0000037208174,"threshold_uncertainty_score":0.4032254},"labels":[],"label_agreement":null},{"id":"W2049961512","doi":"10.1002/adma.200600763","title":"Curling Colloidal Photonic Crystals","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Government of Canada","keywords":"Materials science; Overlayer; Curling; Inverse; Curvature; Colloid; Colloidal crystal; Photonic crystal; Photonics; Microstructure; Spectroscopy; Nanotechnology; Optics; Chemical engineering; Optoelectronics; Composite material; Physical chemistry; Chemistry","score_opus":0.004650094060023392,"score_gpt":0.23720429998532358,"score_spread":0.23255420592530018,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2049961512","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97452825,0.000046481087,0.0024610772,0.00005838613,0.00017110494,0.00032166723,0.0002733331,0.000074798896,0.022064894],"genre_scores_gemma":[0.9963894,0.0000032154892,0.0017132533,0.000027492038,0.0002655302,0.00020953415,0.00011759243,0.000023208122,0.001250778],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990839,0.000014884926,0.0002811374,0.00023066314,0.00011807057,0.0002713945],"domain_scores_gemma":[0.9995073,0.00002903785,0.00012499589,0.00024538563,0.0000530684,0.000040203722],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0001115528,0.00013915444,0.00020470485,0.000024160703,0.00013846272,0.00007362316,0.00012323949,0.000024027251,0.0019866512],"category_scores_gemma":[0.0000024540625,0.00013536256,0.000052377134,0.00009193658,0.000032086882,0.00013011515,0.000041845968,0.000038717426,0.000086252134],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000007124734,0.000053923228,0.000069712034,0.0000055826013,0.0000075440344,4.2896704e-7,0.000010015459,0.00021450668,0.9628961,0.035871692,0.0003833192,0.00048004676],"study_design_scores_gemma":[0.00040547538,0.000010067928,0.00020771137,0.0000136071985,0.000010751103,7.636234e-7,0.00005253594,0.0000095193245,0.8945372,0.03499347,0.06958914,0.00016976616],"about_ca_topic_score_codex":0.00026440658,"about_ca_topic_score_gemma":0.0000056408917,"teacher_disagreement_score":0.06920581,"about_ca_system_score_codex":0.000028771987,"about_ca_system_score_gemma":0.000041283874,"threshold_uncertainty_score":0.9989257},"labels":[],"label_agreement":null},{"id":"W2050714439","doi":"10.1002/adma.201001349","title":"Flash Nano‐Welding: Investigation and Control of the Photothermal Response of Ultrathin Bismuth Sulfide Nanowire Films","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Thermoelectric Materials and Devices","field":"Materials Science","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; Xerox (Canada); McMaster University; University of Toronto","funders":"University of Toronto; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Government of Canada","keywords":"Photothermal therapy; Materials science; Nanowire; Nanotechnology; Welding; Flash (photography); Substrate (aquarium); Carbon nanotube; Nano-; Bismuth; Composite material; Optics; Metallurgy","score_opus":0.0053547842024175354,"score_gpt":0.2199898107666142,"score_spread":0.21463502656419667,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2050714439","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975845,0.000095668336,0.00013150633,0.00009327371,0.0012031564,0.00051759084,0.00025252026,0.000052227435,0.00006954089],"genre_scores_gemma":[0.99631006,0.000023801562,0.0032683145,0.00014712452,0.0000544354,0.000045558463,0.0000034518791,0.000031926236,0.00011533819],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979633,0.00034514847,0.0007113631,0.00034115138,0.00033751383,0.00030151682],"domain_scores_gemma":[0.99808717,0.00037418344,0.0007826709,0.00048778503,0.00018972917,0.000078468955],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0014975892,0.00023367535,0.0005224382,0.00006333074,0.00013207314,0.000050887425,0.00035741075,0.00013710419,0.000607813],"category_scores_gemma":[0.0008722226,0.00016114874,0.00005255585,0.00016367382,0.00041549178,0.0003374417,0.00008015313,0.00007546669,0.000010489612],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011000275,0.0000222077,0.00012636659,0.000096133874,0.0000075048606,0.0000010701799,0.00031561832,0.000045565237,0.9971585,0.0009801565,0.000011219512,0.00013557388],"study_design_scores_gemma":[0.0010127026,0.00012416612,0.0025202325,0.00008931002,0.000023724831,0.000014309841,0.000054152504,0.000007724508,0.9932628,0.002438357,0.00027340685,0.00017909483],"about_ca_topic_score_codex":0.00005999213,"about_ca_topic_score_gemma":0.000018059227,"teacher_disagreement_score":0.0038957375,"about_ca_system_score_codex":0.000012511136,"about_ca_system_score_gemma":0.000111240064,"threshold_uncertainty_score":0.6655126},"labels":[],"label_agreement":null},{"id":"W2051260837","doi":"10.1002/adma.201104171","title":"A Polyferroplatinyne Precursor for the Rapid Fabrication of L1<sub>0</sub>‐FePt‐type Bit Patterned Media by Nanoimprint Lithography","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanofabrication and Lithography Techniques","field":"Engineering","cited_by":140,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University Grants Committee; University of Hong Kong; Hong Kong Baptist University","keywords":"Nanoimprint lithography; Materials science; Fabrication; Nanodot; Patterned media; Nanotechnology; Lithography; Multiple patterning; Wafer; Optoelectronics; Resist","score_opus":0.009870841345996719,"score_gpt":0.22942653327002768,"score_spread":0.21955569192403096,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2051260837","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.90849596,0.00469853,0.08203943,0.00011535364,0.0017022329,0.0015656553,0.0004543612,0.00073651463,0.00019196527],"genre_scores_gemma":[0.9917196,0.001512379,0.0058929753,0.0000701881,0.00013992921,0.00048584273,0.00011336706,0.000058984617,0.000006756879],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99877936,0.000052158928,0.00046278475,0.0001762451,0.0001886465,0.00034079238],"domain_scores_gemma":[0.9989177,0.00022589047,0.00018711633,0.0004195692,0.00016750302,0.00008219322],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00043200233,0.00021629473,0.00028961198,0.00014168149,0.000059372665,0.000026073207,0.00022000364,0.000103282495,0.00007577253],"category_scores_gemma":[0.00011578651,0.00017087748,0.00010057113,0.0003731293,0.00006176908,0.0002408937,0.000028071283,0.000056506728,0.000009675549],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047772475,0.000040972947,0.00015760883,0.00009601009,0.00004771364,3.2315114e-8,0.000265887,0.0000113187325,0.9573701,0.00028503156,0.0017975087,0.03988002],"study_design_scores_gemma":[0.0002899116,0.000044821994,0.0069310055,0.00003452013,0.000041705567,0.0000012612157,0.00003564936,0.00002639202,0.9671099,0.00022641046,0.02505617,0.00020220838],"about_ca_topic_score_codex":0.0000060975694,"about_ca_topic_score_gemma":7.5357383e-7,"teacher_disagreement_score":0.08322362,"about_ca_system_score_codex":0.000026096117,"about_ca_system_score_gemma":0.000008850231,"threshold_uncertainty_score":0.6968181},"labels":[],"label_agreement":null},{"id":"W2053302198","doi":"10.1002/adma.200500786","title":"Quantum Dots in Biological and Biomedical Research: Recent Progress and Present Challenges","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":624,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; University of Toronto","keywords":"Nanotechnology; Quantum dot; Popularity; Materials science; Nanomaterials; Engineering ethics; Data science; Computer science; Engineering; Political science","score_opus":0.13138524599157553,"score_gpt":0.34623114790643333,"score_spread":0.2148459019148578,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2053302198","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97330004,0.0228812,0.000002230457,0.0028775677,0.0002763014,0.00036978035,0.000027601713,0.00004425316,0.00022101642],"genre_scores_gemma":[0.9824939,0.01636266,0.0007743225,0.000014589876,0.00016719085,0.00013483812,0.000005897249,0.000014915479,0.000031687163],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976975,0.0005046528,0.00040847308,0.000505331,0.00036700504,0.0005170818],"domain_scores_gemma":[0.9993244,0.0002166123,0.000075385025,0.00020773649,0.000085069594,0.000090787384],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0022659516,0.00016574985,0.00035134522,0.00011718723,0.00012145075,0.00012880524,0.00015569724,0.00012356348,0.00037978275],"category_scores_gemma":[0.00025278097,0.00010953988,0.00001096942,0.000093255876,0.00079494074,0.00018362797,0.00023687784,0.00007729327,0.000049282033],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021245777,0.00013049008,0.000120064666,0.00008515858,0.0000018179443,0.00002491764,0.00016181111,7.048131e-7,0.9762946,0.0047706054,0.00012959205,0.018067827],"study_design_scores_gemma":[0.0006330583,0.0004365404,0.015150318,0.0001981563,0.0000033902934,0.000026712649,0.00031290037,0.000011591084,0.8719104,0.024082923,0.086955115,0.00027887462],"about_ca_topic_score_codex":0.00007116633,"about_ca_topic_score_gemma":0.000023455219,"teacher_disagreement_score":0.10438414,"about_ca_system_score_codex":0.000032397733,"about_ca_system_score_gemma":0.000025389645,"threshold_uncertainty_score":0.44669065},"labels":[],"label_agreement":null},{"id":"W2053416143","doi":"10.1002/adma.200902763","title":"Towards the Photonic Nose: A Novel Platform for Molecule and Bacteria Identification","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Chemical Sensor Technologies","field":"Engineering","cited_by":176,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Mount Sinai Hospital; University of Toronto","funders":"","keywords":"Identification (biology); Stack (abstract data type); Photonics; Nanotechnology; Bacteria; Materials science; Electronic nose; Computational biology; Computer science; Biology; Optoelectronics; Genetics; Ecology","score_opus":0.01504145183662516,"score_gpt":0.2463350758504397,"score_spread":0.23129362401381454,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2053416143","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98226887,0.00017701594,0.015868785,0.00019615634,0.00023174993,0.00046288938,0.000085200256,0.00056764163,0.00014167554],"genre_scores_gemma":[0.9871347,0.00018329124,0.012390629,0.00006836483,0.00003521697,0.000110633184,0.00002332206,0.000024153067,0.000029680956],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99928486,0.0000019972338,0.00022910217,0.00017305388,0.000079945276,0.00023104211],"domain_scores_gemma":[0.9995881,0.00003576164,0.000051954947,0.0002613044,0.00003813562,0.000024790746],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000583278,0.00014621139,0.00017063151,0.00002549125,0.00005803672,0.000054966258,0.00016430281,0.000081508246,0.000013159044],"category_scores_gemma":[0.00012919758,0.00011330108,0.000022750048,0.00006917121,0.00004289069,0.00019989273,0.000022752314,0.000048576207,0.0000050322224],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021954844,0.000006631663,9.229184e-8,0.00002706964,0.000006696561,2.7178012e-7,0.000025902244,0.00033624555,0.98803896,0.0014935388,0.000038901093,0.010003763],"study_design_scores_gemma":[0.00034197082,0.00003028234,0.00019394736,0.000015007596,0.000009522772,0.000006009147,0.00003186632,0.00020240767,0.98510635,0.010590955,0.003325343,0.00014633559],"about_ca_topic_score_codex":8.553206e-7,"about_ca_topic_score_gemma":7.393758e-7,"teacher_disagreement_score":0.009857427,"about_ca_system_score_codex":0.00006075662,"about_ca_system_score_gemma":0.0000023581367,"threshold_uncertainty_score":0.4620284},"labels":[],"label_agreement":null},{"id":"W2053452751","doi":"10.1002/1521-4095(200103)13:5<347::aid-adma347>3.0.co;2-9","title":"Axially Coordinated Porphyrinic Photochromes for Non-destructive Information Processing","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Axial symmetry; Phosphorescence; Materials science; Ruthenium; Photochemistry; Optical storage; Ring (chemistry); Optoelectronics; Optics; 3D optical data storage; Fluorescence; Catalysis; Chemistry; Organic chemistry; Physics","score_opus":0.02595228461808283,"score_gpt":0.324542724255394,"score_spread":0.29859043963731113,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2053452751","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9917542,0.0000073276624,0.004216167,0.00004298062,0.00043274023,0.001255576,0.00012466552,0.00009112543,0.0020752507],"genre_scores_gemma":[0.99704075,0.000075382755,0.002055586,0.00018290275,0.00007238106,0.00039687543,0.000025587044,0.000022329325,0.00012817867],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99869514,0.000039560986,0.0003257989,0.0002527864,0.0002848072,0.00040192032],"domain_scores_gemma":[0.9992183,0.00009498198,0.00016683462,0.00017677709,0.00025907994,0.00008404858],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021646908,0.00015566012,0.00021448148,0.00012103976,0.00020212226,0.00017478807,0.00024225932,0.00006723018,0.00022516196],"category_scores_gemma":[0.0006889174,0.00014402714,0.000036706922,0.00026384526,0.00011478326,0.0010568224,0.00006784248,0.00005299997,0.0000805604],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003768726,0.000020345467,0.000011643496,0.000060701594,0.0000021635644,0.0000020613377,0.00015259002,0.000031854714,0.9875737,0.0002260669,0.000046718345,0.011495326],"study_design_scores_gemma":[0.0010196365,0.00016744599,0.00040531807,0.00003213168,0.0000043469904,0.00001720741,0.000046827718,0.0001068353,0.9889998,0.0017649693,0.0072587607,0.00017672036],"about_ca_topic_score_codex":0.000007396,"about_ca_topic_score_gemma":0.0000012390697,"teacher_disagreement_score":0.011318605,"about_ca_system_score_codex":0.0000823078,"about_ca_system_score_gemma":0.00011737912,"threshold_uncertainty_score":0.58732563},"labels":[],"label_agreement":null},{"id":"W2053788377","doi":"10.1002/adma.201470034","title":"Photovoltaics: The Complete In‐Gap Electronic Structure of Colloidal Quantum Dot Solids and Its Correlation with Electronic Transport and Photovoltaic Performance (Adv. Mater. 6/2014)","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Toronto","funders":"","keywords":"Photovoltaics; Materials science; Passivation; Quantum dot; Optoelectronics; Photovoltaic system; Colloid; Band gap; Nanotechnology; Limiting; Electrical engineering; Chemical engineering","score_opus":0.00798278432012827,"score_gpt":0.2061353939715104,"score_spread":0.19815260965138212,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2053788377","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99796706,0.0008934743,0.00006941293,0.000046763642,0.00017693352,0.00065861375,0.00010203776,0.00004504715,0.00004068044],"genre_scores_gemma":[0.9985613,0.0010076145,0.00013373741,0.000094817464,0.00004533824,0.000055976427,0.00001843212,0.00004275213,0.00003998679],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978149,0.000183147,0.000551608,0.0004565905,0.0003208651,0.0006729052],"domain_scores_gemma":[0.9990902,0.000118528646,0.00032619305,0.00030373054,0.00010423878,0.0000571218],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0007757783,0.0003278949,0.0005911681,0.00008360365,0.00020617804,0.0000699124,0.00023582084,0.0001075828,0.00025051346],"category_scores_gemma":[0.000036496494,0.0002072429,0.000023880833,0.00012152603,0.00024000958,0.0004575111,0.000044527194,0.0001494634,0.0000096851245],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00071165635,0.00001781024,0.000973799,0.00024333865,0.000011546913,6.2597474e-7,0.00034786836,0.00028394905,0.9944002,0.0028870439,0.000005025915,0.000117140866],"study_design_scores_gemma":[0.00094841723,0.0007253143,0.008817052,0.00015535436,0.000041607655,0.00004233902,0.00009680278,0.0011854459,0.98451257,0.0019696418,0.0011950729,0.00031038624],"about_ca_topic_score_codex":0.0001462487,"about_ca_topic_score_gemma":0.0003196962,"teacher_disagreement_score":0.009887628,"about_ca_system_score_codex":0.000068182104,"about_ca_system_score_gemma":0.00010318811,"threshold_uncertainty_score":0.845112},"labels":[],"label_agreement":null},{"id":"W2053825729","doi":"10.1002/adma.200390016","title":"Self‐Assembled Surface Patterns of Binary Colloidal Crystals","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":232,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Dispersity; SPHERES; Monolayer; Microsphere; Self-assembly; Colloid; Colloidal crystal; Binary number; Nanotechnology; Millimeter; Chemical engineering; Optics; Polymer chemistry","score_opus":0.011798732447945602,"score_gpt":0.2582103492176795,"score_spread":0.2464116167697339,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2053825729","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99777454,0.000074498515,0.0005522707,0.000016869177,0.00069668103,0.00030340365,0.000074754986,0.0001279077,0.0003791027],"genre_scores_gemma":[0.98980457,0.00006398689,0.009931882,0.000021657326,0.00001822075,0.000019481771,0.000005652395,0.000024542733,0.000110019486],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985375,0.00019691826,0.0004439888,0.00027463547,0.0002467707,0.0003001961],"domain_scores_gemma":[0.99914306,0.000086462765,0.00020403761,0.00034783516,0.00014558529,0.00007303914],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005892527,0.00015268622,0.00031312724,0.000035009332,0.00008863069,0.00004264551,0.00014308472,0.000061374114,0.0009932907],"category_scores_gemma":[0.00018007155,0.0001389724,0.000034281973,0.00013473157,0.000017726416,0.0002713043,0.00004739381,0.000024268404,0.00006853615],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004265979,0.00009446666,0.00058305677,0.00014922117,0.00000462086,0.0000032676883,0.00015518899,0.0016564893,0.9960981,0.0011746751,0.000022482325,0.000015785956],"study_design_scores_gemma":[0.00053452665,0.00010357317,0.001001408,0.000046027748,0.000012349566,0.0000049722694,0.00009279682,0.000016498132,0.9952526,0.00029295086,0.0024783663,0.00016390438],"about_ca_topic_score_codex":0.000022512459,"about_ca_topic_score_gemma":0.0000046064306,"teacher_disagreement_score":0.009379611,"about_ca_system_score_codex":0.00004691981,"about_ca_system_score_gemma":0.000055004108,"threshold_uncertainty_score":0.99991995},"labels":[],"label_agreement":null},{"id":"W2054058713","doi":"10.1002/1521-4095(200111)13:21<1634::aid-adma1634>3.0.co;2-9","title":"Photonic Bandgap Engineering in Germanium Inverse Opals by Chemical Vapor Deposition","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Germanium; Photonic crystal; Chemical vapor deposition; Photonics; Inverse; Band gap; Optoelectronics; Deposition (geology); Etching (microfabrication); Layer (electronics); Atomic layer deposition; Isotropic etching; Nanotechnology; Silicon","score_opus":0.0044479398896673,"score_gpt":0.22450928994491845,"score_spread":0.22006135005525115,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2054058713","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968628,0.000024007722,0.0010369533,0.000042758966,0.000073009316,0.00023961358,0.00007599484,0.000039925995,0.0016048794],"genre_scores_gemma":[0.9988812,0.000018812256,0.0004931215,0.000039046558,0.00007876447,0.00022459347,0.00016243418,0.000018907775,0.00008312694],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992398,0.000009210047,0.0002372978,0.00019897307,0.00007803227,0.00023668421],"domain_scores_gemma":[0.99967444,0.000019376797,0.00006622679,0.00016601513,0.000018665562,0.000055260658],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007586784,0.00012537313,0.00018047474,0.000027190039,0.000029556344,0.000032912463,0.00009127133,0.000032339114,0.0006066873],"category_scores_gemma":[0.0000016938602,0.0001325812,0.000031236726,0.000096274045,0.000012597235,0.000141586,0.000031701984,0.000054030523,0.000035890705],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014573208,0.000057006615,0.00007074728,0.000007152143,0.0000061613096,0.0000016370691,0.000026852642,0.00013902031,0.9975801,0.0015775989,0.00016880619,0.00035035945],"study_design_scores_gemma":[0.0006404311,0.000008798201,0.00008879249,0.000024949357,0.000006612179,0.0000026936395,0.000020397003,0.000119503544,0.9926677,0.0005736084,0.005691921,0.0001546262],"about_ca_topic_score_codex":0.00010702067,"about_ca_topic_score_gemma":0.000002750417,"teacher_disagreement_score":0.0055231145,"about_ca_system_score_codex":0.00004783805,"about_ca_system_score_gemma":0.000015835984,"threshold_uncertainty_score":0.66428},"labels":[],"label_agreement":null},{"id":"W2054393529","doi":"10.1002/(sici)1521-4095(200003)12:5<371::aid-adma371>3.0.co;2-p","title":"Liquid Crystal Alignment and Switching in Porous Chiral Thin Films","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Liquid crystal; Thin film; Porosity; Microstructure; Chirality (physics); Deposition (geology); Chemical engineering; Nanotechnology; Optoelectronics; Composite material; Chiral symmetry","score_opus":0.011399082207538715,"score_gpt":0.27799397839092876,"score_spread":0.26659489618339005,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2054393529","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99654174,0.00020593857,0.00007106945,0.00012538675,0.0003524065,0.0005798783,0.0000898382,0.0001102283,0.001923514],"genre_scores_gemma":[0.99268293,0.0002657395,0.005472539,0.00025617742,0.000072231815,0.00013360578,0.000018100594,0.000041997522,0.0010566512],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99719024,0.00016828363,0.0005944763,0.0006027509,0.00063033303,0.0008139322],"domain_scores_gemma":[0.9991985,0.000071033,0.000115781164,0.0003888299,0.00004239218,0.00018346484],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0009551854,0.00027912855,0.00040687353,0.00009213459,0.0001365235,0.00017647028,0.00031793534,0.00007267229,0.007095212],"category_scores_gemma":[0.00016269104,0.0002540781,0.000025056632,0.00012453196,0.000088688445,0.0009822905,0.00021551877,0.000099518926,0.00024296858],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008887443,0.000072279254,0.000014307622,0.000049441893,0.0000041088015,0.000065774446,0.00032831795,0.00046584572,0.9960499,0.00028972919,0.00004340831,0.0017281579],"study_design_scores_gemma":[0.0013605013,0.00047904343,0.00029355552,0.00012469616,0.000004452393,0.00002274047,0.00013564546,0.000017240822,0.9918639,0.0027845528,0.002585296,0.00032836897],"about_ca_topic_score_codex":0.00013407298,"about_ca_topic_score_gemma":0.000030663934,"teacher_disagreement_score":0.0068522436,"about_ca_system_score_codex":0.00014743189,"about_ca_system_score_gemma":0.0000576003,"threshold_uncertainty_score":0.9999911},"labels":[],"label_agreement":null},{"id":"W2054660233","doi":"10.1002/adma.200400618","title":"Silicon Inverse Opal—A Platform for Photonic Bandgap Research","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":96,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photonic crystal; Materials science; Colloidal crystal; Silicon; Optoelectronics; Inverse; Silicon photonics; Photonics; Heterojunction; Band gap; Yablonovite; Photon; Nanotechnology; Photonic integrated circuit; Optics; Colloid; Physics","score_opus":0.04478314326985857,"score_gpt":0.35332935453066683,"score_spread":0.3085462112608083,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2054660233","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99310714,0.000018343673,0.0009494687,0.00015843862,0.00015281966,0.0009441031,0.00035883396,0.000041135463,0.004269702],"genre_scores_gemma":[0.9960153,0.000010206982,0.0021447118,0.000041893316,0.00018533738,0.0010179466,0.00014738654,0.000025638628,0.00041156868],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989331,0.000011148277,0.00023270067,0.0002724043,0.00015420139,0.00039646254],"domain_scores_gemma":[0.99932796,0.00007281467,0.00007095701,0.0003187108,0.00012807274,0.00008150054],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003669896,0.0001228121,0.00019424592,0.00004602314,0.00024533228,0.000067508925,0.00018016962,0.00003500928,0.000589971],"category_scores_gemma":[0.000014701356,0.000114792805,0.00005680012,0.00011749356,0.000065489294,0.00018067234,0.00006031922,0.0000709213,0.00010035007],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000042825704,0.00007187322,0.000005205681,0.00001719518,0.0000132113555,2.1396652e-7,0.00011961848,0.00017719355,0.9233912,0.07451564,0.00019101934,0.0014547684],"study_design_scores_gemma":[0.0012139672,0.00005210738,0.000026952777,0.000024844792,0.0000065031863,3.6404083e-7,0.00022854118,0.0000067427095,0.80222684,0.13554819,0.06054049,0.00012447593],"about_ca_topic_score_codex":0.0002048772,"about_ca_topic_score_gemma":0.000020114185,"teacher_disagreement_score":0.121164404,"about_ca_system_score_codex":0.00008105446,"about_ca_system_score_gemma":0.00011149358,"threshold_uncertainty_score":0.6459769},"labels":[],"label_agreement":null},{"id":"W2057217001","doi":"10.1002/adma.200790074","title":"Cover Picture: Novel Structure of AAO Film Fabricated by Constant Current Anodization (Adv. Mater. 19/2007)","year":2007,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Anodic Oxide Films and Nanostructures","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University; Polytechnique Montréal; National Research Council Canada; Regroupement Québécois sur les Matériaux de Pointe","funders":"","keywords":"Anodizing; Materials science; Nanowire; Nanodot; Nanotechnology; Porosity; Current density; Template; Constant current; Current (fluid); Optoelectronics; Cover (algebra); Aluminium; Composite material; Electrical engineering","score_opus":0.009569981641587125,"score_gpt":0.2712912281057831,"score_spread":0.261721246464196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2057217001","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.68543285,0.018330691,0.039487537,0.00009961973,0.06166554,0.0043697185,0.18186155,0.0004834043,0.008269065],"genre_scores_gemma":[0.9463529,0.0032690081,0.007187923,0.0007904642,0.0015304661,0.000069915695,0.018558638,0.00042803242,0.021812662],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9944693,0.00019687111,0.0018884338,0.0012671532,0.0011420574,0.0010361704],"domain_scores_gemma":[0.99574953,0.00013781099,0.0022367688,0.0009714916,0.00061754475,0.0002868602],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00047603273,0.0011065295,0.0018364979,0.00029281998,0.00018672494,0.00022283393,0.0008904422,0.00095979864,0.05714388],"category_scores_gemma":[0.00023115073,0.00092293625,0.00016683456,0.00038547447,0.00048374897,0.00041204088,0.00031292575,0.00034651227,0.0014404656],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027206782,0.0000640803,0.0000023772425,0.0006003349,0.00003245409,0.000003958266,0.00007713719,0.0004335532,0.72966105,0.00014722264,0.26846597,0.00023982195],"study_design_scores_gemma":[0.0010053793,0.000098319106,0.000026889613,0.0003165095,0.00007870089,0.000023048247,0.00002157497,0.0000022488903,0.692521,0.00021629491,0.30499417,0.00069587],"about_ca_topic_score_codex":0.00012456998,"about_ca_topic_score_gemma":0.0000051705906,"teacher_disagreement_score":0.26092002,"about_ca_system_score_codex":0.00027699675,"about_ca_system_score_gemma":0.00039685954,"threshold_uncertainty_score":0.999337},"labels":[],"label_agreement":null},{"id":"W2057243948","doi":"10.1002/adma.200801153","title":"Solar Cells, Photodetectors, and Optical Sources from Infrared Colloidal Quantum Dots","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":199,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Optoelectronics; Photodetector; Photovoltaics; Infrared; Quantum dot; Photovoltaic system; Energy conversion efficiency; Diode; Quantum efficiency; Optics; Physics","score_opus":0.015154684977238988,"score_gpt":0.2106279248787482,"score_spread":0.19547323990150922,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2057243948","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99686074,0.0009361888,0.00008761428,0.00004518527,0.0010739838,0.00026953136,0.000278856,0.00018536315,0.0002625249],"genre_scores_gemma":[0.99395615,0.0008750424,0.0045184935,0.00011891244,0.0002024953,0.00005703695,0.000012554643,0.000045471832,0.00021384755],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99798036,0.00014837508,0.0004943838,0.00053574546,0.00037127532,0.00046983664],"domain_scores_gemma":[0.99901974,0.00019188732,0.00016900148,0.00038026465,0.000078561505,0.00016051902],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003584507,0.00030282783,0.0005583419,0.00005942161,0.00036477883,0.00017871406,0.00027273383,0.0001381478,0.0018839757],"category_scores_gemma":[0.00018548444,0.00023966598,0.000047027283,0.00007036023,0.00034223145,0.00043538457,0.00016768737,0.00007025428,0.00032926185],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028174632,0.00004039492,0.00005525454,0.000028072907,0.000009678562,0.000026053944,0.00047091363,0.0000139268395,0.9985094,0.00008874371,0.00022470586,0.0002510834],"study_design_scores_gemma":[0.00049611327,0.00013112913,0.00082866545,0.000051147355,0.000019223864,0.000019587102,0.000121153775,0.000014517361,0.9858356,0.0010078939,0.011118829,0.0003561296],"about_ca_topic_score_codex":0.0002930696,"about_ca_topic_score_gemma":0.000010660806,"teacher_disagreement_score":0.012673816,"about_ca_system_score_codex":0.000034745717,"about_ca_system_score_gemma":0.00006103797,"threshold_uncertainty_score":0.99902844},"labels":[],"label_agreement":null},{"id":"W2057642744","doi":"10.1002/adma.200401291","title":"Polymer‐Mediated Nanoparticle Assembly: Structural Control and Applications","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanomaterials for catalytic reactions","field":"Chemistry","cited_by":691,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada","funders":"","keywords":"Materials science; Polymer; Nanotechnology; Nanoparticle; Fabrication; Nanocomposite; Composite material","score_opus":0.00476564901963,"score_gpt":0.23991548257184198,"score_spread":0.23514983355221197,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2057642744","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974962,0.0003637358,0.00007187279,0.00028446747,0.00014035043,0.00020672695,0.00039629653,0.00024010953,0.0008002297],"genre_scores_gemma":[0.9983898,0.000030237798,0.00036799037,0.000112735645,0.00028417484,0.00026658882,0.00010650416,0.0000357772,0.00040618115],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998831,0.00001499744,0.00038454548,0.00029887146,0.00015630927,0.00031431767],"domain_scores_gemma":[0.99923044,0.000091847825,0.00016443201,0.0003563512,0.000057474343,0.000099459205],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00009896851,0.00018401413,0.00027912404,0.00003392867,0.00014205747,0.00008984115,0.00013134493,0.000085223255,0.00093558774],"category_scores_gemma":[0.00006258378,0.0001734233,0.000029808632,0.00006710991,0.00007656591,0.00033835083,0.000042948624,0.000041748866,0.00019773877],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051635514,0.000019053059,0.000044514938,0.000031114687,0.000024816409,0.0000012105656,0.000021949118,0.0000068677896,0.9953361,0.0007628145,0.000023589335,0.003676337],"study_design_scores_gemma":[0.0011926912,0.000009501192,0.00022123766,0.000010858545,0.000038724953,0.000033435994,0.00003061363,0.000021702683,0.9808432,0.00026382107,0.01714031,0.00019388858],"about_ca_topic_score_codex":0.000024772195,"about_ca_topic_score_gemma":0.0000058029054,"teacher_disagreement_score":0.017116722,"about_ca_system_score_codex":0.00007625971,"about_ca_system_score_gemma":0.000029226885,"threshold_uncertainty_score":0.9999777},"labels":[],"label_agreement":null},{"id":"W2060060505","doi":"10.1002/adma.201304464","title":"Low Porosity Metallic Periodic Structures with Negative Poisson's Ratio","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cellular and Composite Structures","field":"Engineering","cited_by":246,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Rolls-Royce (Canada)","funders":"","keywords":"Auxetics; Porosity; Poisson distribution; Materials science; Poisson's ratio; Aspect ratio (aeronautics); Metal; Simple (philosophy); Nanotechnology; Composite material; Mathematics; Metallurgy; Statistics","score_opus":0.002920779273632885,"score_gpt":0.18037485281586993,"score_spread":0.17745407354223705,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2060060505","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968946,0.00014909788,0.0012836764,0.000024517452,0.00036705518,0.00036355262,0.000028978999,0.0002690497,0.0006194461],"genre_scores_gemma":[0.99530023,0.000023987206,0.0042846315,0.00005797434,0.0000894353,0.00006117821,0.00003553506,0.00004149584,0.00010550048],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991749,0.000025964837,0.00017798849,0.00019447984,0.00016833632,0.00025831876],"domain_scores_gemma":[0.9995436,0.00001930788,0.0000450221,0.00024803221,0.00006930498,0.00007472772],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000032376003,0.00023320307,0.0002838778,0.00004158073,0.000088693414,0.0001569717,0.00014056722,0.00005560139,0.0016233576],"category_scores_gemma":[0.0000103018265,0.0001795591,0.00003328066,0.000078703175,0.000052951433,0.0003275044,0.00002721027,0.00006958226,0.00006421675],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020811201,0.000004036817,0.000012061597,0.00005086081,0.000046431047,0.0000047257454,0.0001901939,0.0031668446,0.99472684,0.0006119412,0.00009018719,0.001075093],"study_design_scores_gemma":[0.0003682747,0.000049021684,0.0052133217,0.000016101316,0.000019748315,0.000016338616,0.000056982877,0.000048890444,0.989507,0.004092532,0.00035750374,0.00025427426],"about_ca_topic_score_codex":0.00006271157,"about_ca_topic_score_gemma":0.000018676059,"teacher_disagreement_score":0.0052198027,"about_ca_system_score_codex":0.000041423547,"about_ca_system_score_gemma":0.000011560474,"threshold_uncertainty_score":0.9992893},"labels":[],"label_agreement":null},{"id":"W2060575054","doi":"10.1002/adma.201001627","title":"Microstructured Tungsten Oxide: A Generic Desorption/Ionization Substrate for Mass Spectrometry","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mass Spectrometry Techniques and Applications","field":"Chemistry","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Mass spectrometry; Tungsten; Substrate (aquarium); Desorption; FOIL method; Analytical Chemistry (journal); Soft laser desorption; Protonation; Ionization; Matrix-assisted laser desorption/ionization; Chromatography; Ion; Chemistry; Organic chemistry; Composite material","score_opus":0.008772838295127957,"score_gpt":0.25397882820324624,"score_spread":0.2452059899081183,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2060575054","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9764846,0.000031343086,0.020618625,0.000108879365,0.00022303303,0.000350388,0.00037948004,0.00038549188,0.0014181775],"genre_scores_gemma":[0.75680304,0.000039439823,0.24148376,0.000046594556,0.00022856263,0.00035415686,0.00035330988,0.000049022452,0.0006420872],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99869746,0.000007512642,0.00038254913,0.00041112342,0.00015247891,0.00034886287],"domain_scores_gemma":[0.9989616,0.000042673528,0.0002470135,0.00050143054,0.00016273368,0.000084537605],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014550755,0.00022471606,0.00026550132,0.00008792256,0.00015701396,0.00011963679,0.00026486238,0.00018897183,0.0049684825],"category_scores_gemma":[0.000091766015,0.00022314818,0.00007123044,0.00024047737,0.00005060269,0.0001537952,0.000032411324,0.00011961753,0.000021373318],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037418737,0.000024139257,0.000083495914,0.00007993587,0.000013938563,8.1238016e-7,0.000006802525,0.0000067320934,0.9856041,0.01371288,0.00013945455,0.00029028964],"study_design_scores_gemma":[0.0004193726,0.000017727274,0.00046809026,0.000009894311,0.000024773653,0.000018348395,0.000013869404,0.000016542612,0.9617324,0.03068604,0.0063399416,0.0002530007],"about_ca_topic_score_codex":0.000009486232,"about_ca_topic_score_gemma":0.0000082096685,"teacher_disagreement_score":0.22086515,"about_ca_system_score_codex":0.000072213006,"about_ca_system_score_gemma":0.000033453718,"threshold_uncertainty_score":0.9959411},"labels":[],"label_agreement":null},{"id":"W2061682891","doi":"10.1002/adma.200790084","title":"Inside Front Cover: Direct Patterning, Conformal Coating, and Erbium Doping of Luminescent nc‐Si/SiO<sub>2</sub> Thin Films from Solution Processable Hydrogen Silsesquioxane (Adv. Mater. 21/2007)","year":2007,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Silicone and Siloxane Chemistry","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"National Institute for Nanotechnology; University of Alberta","funders":"","keywords":"Materials science; Hydrogen silsesquioxane; Conformal coating; Luminescence; Thin film; Silsesquioxane; Nanostructure; Doping; Nanotechnology; Resist; Silicon; Optoelectronics; Coating; Layer (electronics); Composite material; Polymer; Electron-beam lithography","score_opus":0.009864368197504879,"score_gpt":0.24076352276410412,"score_spread":0.23089915456659924,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2061682891","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9824695,0.0032414673,0.00014735061,0.000017261147,0.003940743,0.0009974475,0.003327153,0.00018464487,0.005674432],"genre_scores_gemma":[0.9904951,0.0018207054,0.0009803255,0.0003163587,0.0008562491,0.00018026508,0.00261662,0.00017901624,0.002555357],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99402875,0.0001740407,0.0021308463,0.0014190004,0.0009838956,0.0012634423],"domain_scores_gemma":[0.9958158,0.00023460954,0.0022963441,0.0009099492,0.00044348743,0.00029981247],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.001052882,0.0011155845,0.0021333478,0.00018163875,0.00030622282,0.00029514372,0.00065850955,0.0007738354,0.0065242527],"category_scores_gemma":[0.0002825271,0.0010879828,0.00016314675,0.00013194518,0.00037333733,0.0008371096,0.000583657,0.00033750187,0.0015262015],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00060874526,0.00010426006,0.000080533726,0.0025359464,0.00007355698,0.00004244009,0.00042271207,0.00037444843,0.98359275,0.0000013602591,0.011938509,0.0002247227],"study_design_scores_gemma":[0.0016485135,0.00018506775,0.00008572033,0.0023366075,0.00014957687,0.00004521579,0.00018009914,0.000022006143,0.98980314,0.000025323317,0.0043813954,0.0011373165],"about_ca_topic_score_codex":0.00084649766,"about_ca_topic_score_gemma":0.00003934123,"teacher_disagreement_score":0.008025602,"about_ca_system_score_codex":0.00025721884,"about_ca_system_score_gemma":0.0003449816,"threshold_uncertainty_score":0.99925125},"labels":[],"label_agreement":null},{"id":"W2062527827","doi":"10.1002/adma.200701284","title":"Novel Structure of AAO Film Fabricated by Constant Current Anodization","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Anodic Oxide Films and Nanostructures","field":"Materials Science","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University; Regroupement Québécois sur les Matériaux de Pointe; National Research Council Canada; Polytechnique Montréal","funders":"","keywords":"Materials science; Anodizing; Nanowire; Current density; Nanotechnology; Constant current; Ring (chemistry); Optoelectronics; Current (fluid); Composite material; Aluminium","score_opus":0.007373353166052614,"score_gpt":0.25545712080650623,"score_spread":0.24808376764045362,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2062527827","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9753436,0.0004949659,0.019837262,0.000021746648,0.0016477597,0.00030066096,0.002130542,0.000088983026,0.00013449742],"genre_scores_gemma":[0.9935049,0.000055239885,0.006038607,0.000057761164,0.00007372847,0.0000029866967,0.00019115712,0.000024938096,0.000050672854],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99822295,0.000039970866,0.00063968875,0.00034783065,0.0003704864,0.00037909535],"domain_scores_gemma":[0.9988702,0.00006164463,0.00046465706,0.00029017605,0.00022286615,0.00009046461],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003617287,0.00021997328,0.00039016095,0.000074486736,0.00007115042,0.000040622206,0.00023734238,0.0001102356,0.0017894179],"category_scores_gemma":[0.00016639581,0.00018062752,0.00003513307,0.00018881689,0.0001610026,0.00023610647,0.0000747959,0.000055416192,0.000019358036],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011316798,0.000036666614,0.000042180363,0.000057004174,0.0000046523533,0.0000011963435,0.00008027261,0.00004691348,0.99569696,0.001203934,0.0010158153,0.0017012168],"study_design_scores_gemma":[0.0006402383,0.000059000064,0.0007598138,0.00005072368,0.000015101006,0.0000098492155,0.000041028663,0.000002147259,0.99029577,0.0008971514,0.0070188,0.0002103841],"about_ca_topic_score_codex":0.00005277766,"about_ca_topic_score_gemma":0.000010812974,"teacher_disagreement_score":0.018161327,"about_ca_system_score_codex":0.00005088088,"about_ca_system_score_gemma":0.000053143092,"threshold_uncertainty_score":0.9991231},"labels":[],"label_agreement":null},{"id":"W2063045261","doi":"10.1002/adma.200304043","title":"A New Synthetic Approach to Silicon Colloidal Photonic Crystals with a Novel Topology and an Omni‐Directional Photonic Bandgap: Micromolding in Inverse Silica Opal (MISO)","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photonic crystal; Materials science; Colloidal crystal; Photonics; Inverse; Refractive index; Silicon; Refractive index contrast; Band gap; Optoelectronics; Photonic bandgap; Colloid; Yablonovite; Optics; Photonic integrated circuit; Fabrication; Chemical engineering","score_opus":0.010114594795812856,"score_gpt":0.2508567724357421,"score_spread":0.24074217763992925,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2063045261","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919419,0.000033670065,0.0026389644,0.00004330556,0.00007950155,0.0009300256,0.00019319575,0.000039464863,0.004099958],"genre_scores_gemma":[0.98213696,0.000006724089,0.016820768,0.0000836675,0.00005497395,0.0004939871,0.000044662567,0.000038000544,0.0003202521],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983704,0.00006424489,0.00035490122,0.00062315864,0.00013447063,0.0004527874],"domain_scores_gemma":[0.9992032,0.00006023695,0.00013098562,0.00032857136,0.000046685116,0.00023032929],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025352917,0.00027841917,0.00043980955,0.00010278759,0.00014293341,0.00008850094,0.00014657591,0.00006576734,0.00048033556],"category_scores_gemma":[0.000015997155,0.00026313038,0.000038335067,0.00025253315,0.00007479371,0.00019007377,0.000050786115,0.00010093477,0.0000061064648],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011724321,0.00026045062,0.0001561715,0.000015960832,0.00002471251,9.0326193e-7,0.0002678113,0.00049028377,0.98809266,0.010231186,0.000024756217,0.0003178881],"study_design_scores_gemma":[0.002491119,0.00018042057,0.000317451,0.00005446466,0.000032265034,0.000045182947,0.0007783943,0.000071961564,0.98205155,0.0017629573,0.011756664,0.00045759],"about_ca_topic_score_codex":0.0007700011,"about_ca_topic_score_gemma":0.00011380069,"teacher_disagreement_score":0.014181803,"about_ca_system_score_codex":0.00009278174,"about_ca_system_score_gemma":0.00020821027,"threshold_uncertainty_score":0.9999821},"labels":[],"label_agreement":null},{"id":"W2064709001","doi":"10.1002/adma.200401115","title":"Magnetic Resonance Signal‐Enhancing Self‐Assembled Coating for Endovascular Devices","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"","keywords":"Materials science; Magnetic resonance imaging; Coating; Conjugate; Chitosan; Layer (electronics); SIGNAL (programming language); Nanotechnology; Layer by layer; Visibility; Nuclear magnetic resonance; Self-assembly; Macromolecule; Biomedical engineering; Chemical engineering; Optics; Radiology; Computer science","score_opus":0.01319506294603136,"score_gpt":0.27927022102934257,"score_spread":0.2660751580833112,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2064709001","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9878588,0.006627408,0.002526787,0.00021219619,0.0011678755,0.000655897,0.00005627617,0.00042823958,0.00046652742],"genre_scores_gemma":[0.92836136,0.00011724448,0.06995842,0.00037820786,0.00036388167,0.00044197208,0.00000417037,0.000052667943,0.00032205944],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997572,0.000120136065,0.00072331063,0.0005752671,0.000375682,0.00063360936],"domain_scores_gemma":[0.998524,0.00044194126,0.00031718132,0.00037257167,0.00026262697,0.00008167418],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0008640307,0.0003045227,0.0005398131,0.00007097757,0.00032623587,0.00018044318,0.00030155695,0.00007077465,0.00093974156],"category_scores_gemma":[0.00021037177,0.00028918794,0.00009138621,0.00011989933,0.000029751096,0.00080567546,0.00012794141,0.00005370341,0.00047766557],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009080412,0.00003941992,0.00001823682,0.00008109255,0.0000118605985,0.0000024126598,0.00027085474,0.00015723801,0.9933177,0.00013385864,0.00013091508,0.005745608],"study_design_scores_gemma":[0.00078701024,0.00009391687,0.00016126176,0.00012653232,0.000039712948,0.000010749413,0.0002006758,0.00004578192,0.92725295,0.00010745661,0.07085948,0.00031445987],"about_ca_topic_score_codex":0.000040633407,"about_ca_topic_score_gemma":0.00013360799,"teacher_disagreement_score":0.07072856,"about_ca_system_score_codex":0.00014703942,"about_ca_system_score_gemma":0.000053663913,"threshold_uncertainty_score":0.99997354},"labels":[],"label_agreement":null},{"id":"W2064961960","doi":"10.1002/(sici)1521-4095(200003)12:5<327::aid-adma327>3.0.co;2-l","title":"Application of Ring-Opened Poly(ferrocene)s as Protective Charge Dissipation Coatings for Dielectrics","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"High voltage insulation and dielectric phenomena","field":"Materials Science","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; York University; University of Toronto","funders":"","keywords":"Materials science; Dissipation; Dielectric; Charge (physics); Electron; Dissipation factor; Cathode ray; Composite material; Optoelectronics; Engineering physics; Nanotechnology; Thermodynamics; Nuclear physics","score_opus":0.009386822685782852,"score_gpt":0.2678652609074687,"score_spread":0.25847843822168587,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2064961960","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9639187,0.00007478561,0.031832706,0.0000863069,0.0001486538,0.0016612065,0.00012508077,0.00014352749,0.0020090332],"genre_scores_gemma":[0.99527675,0.000024765386,0.003108152,0.00012993248,0.00008762351,0.00080889516,0.00007220398,0.00002851394,0.00046314718],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99849886,0.00005306092,0.00051224424,0.0003652363,0.00026049052,0.00031011613],"domain_scores_gemma":[0.99898785,0.000094588075,0.00035496196,0.00025487685,0.00023960168,0.00006813498],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004226721,0.00017279034,0.000316046,0.00007856736,0.0001645031,0.00004212178,0.00019113535,0.00007892078,0.0011833052],"category_scores_gemma":[0.00031257473,0.00016425746,0.00003921785,0.00025287777,0.000038610768,0.0003706182,0.00001897441,0.000033605284,0.00020018329],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00048308016,0.00007102402,0.000008800275,0.00005687533,0.0000036147744,1.8020992e-7,0.00021313305,0.00006271546,0.9774482,0.0047645727,0.000011986959,0.016875794],"study_design_scores_gemma":[0.0008516399,0.00024172256,0.0003930276,0.00001988807,0.000013625548,0.0000014658624,0.00001271125,0.00022745888,0.9879373,0.007797736,0.0023151753,0.00018825894],"about_ca_topic_score_codex":0.00010359819,"about_ca_topic_score_gemma":0.0000040643563,"teacher_disagreement_score":0.031358067,"about_ca_system_score_codex":0.00009633999,"about_ca_system_score_gemma":0.00006264823,"threshold_uncertainty_score":0.99972975},"labels":[],"label_agreement":null},{"id":"W2065184787","doi":"10.1002/adma.201300478","title":"Solar‐Powered Nanomechanical Transduction from Crystalline Molecular Rotors","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Porphyrin and Phthalocyanine Chemistry","field":"Materials Science","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick","funders":"Cambridge Trust; Cambridge Commonwealth Trust; Royal Society","keywords":"Metastability; Materials science; Transduction (biophysics); Ring (chemistry); Nanotechnology; Rotation (mathematics); Range (aeronautics); Computer science; Physics; Chemistry; Artificial intelligence","score_opus":0.00636609222438268,"score_gpt":0.21950323227910942,"score_spread":0.21313714005472675,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2065184787","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939745,0.00010506495,0.0033744827,0.0001664407,0.00103022,0.0004269934,0.00019129761,0.00021449591,0.000516527],"genre_scores_gemma":[0.98985237,0.000026791924,0.009150823,0.00016608153,0.00023259311,0.00018584574,0.00013065677,0.0000436455,0.00021118647],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99823755,0.000072913106,0.0004687378,0.00050543225,0.00030903844,0.00040630932],"domain_scores_gemma":[0.99905825,0.000036831214,0.00016065747,0.00046395225,0.00011786451,0.00016241877],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00020628636,0.00025972284,0.00037016266,0.00002784211,0.0000787584,0.00014089489,0.0003144619,0.00014793147,0.02635971],"category_scores_gemma":[0.00008122506,0.0002413993,0.000070263195,0.00007650947,0.000060759405,0.00044398347,0.000066945286,0.00007149983,0.0009871195],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000054039978,0.000052133528,0.000002256511,0.000026735233,0.000008663746,0.000012516332,0.000038722774,0.000029166033,0.99917686,0.00012491518,0.00013947577,0.0003345132],"study_design_scores_gemma":[0.00057952234,0.00004858007,0.000082202954,0.000035963156,0.0000147655865,0.00001227572,0.00003404694,0.00000640024,0.98916733,0.00782121,0.001905492,0.00029218823],"about_ca_topic_score_codex":0.0002129486,"about_ca_topic_score_gemma":0.0000019614417,"teacher_disagreement_score":0.02537259,"about_ca_system_score_codex":0.000061679355,"about_ca_system_score_gemma":0.000034905068,"threshold_uncertainty_score":0.9997907},"labels":[],"label_agreement":null},{"id":"W2065667361","doi":"10.1002/adma.200390009","title":"Ceramics Containing Magnetic Co–Fe Alloy Nanoparticles from the Pyrolysis of a Highly Metallized Organometallic Polymer Precursor","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electromagnetic wave absorption materials","field":"Materials Science","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Brockhouse Institute for Materials Research; McMaster University; University of Toronto","funders":"","keywords":"Materials science; Bimetallic strip; Superparamagnetism; Pyrolysis; Ceramic; Nanoparticle; Cobalt; Alloy; Polymer; Ferromagnetism; Chemical engineering; Amorphous solid; Magnetic nanoparticles; Composite material; Magnetization; Nanotechnology; Metallurgy; Organic chemistry; Metal; Magnetic field","score_opus":0.011989530497374418,"score_gpt":0.24055059454131542,"score_spread":0.228561064043941,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2065667361","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99550414,0.0018317711,0.00007968437,0.00021123736,0.0007656253,0.0007524348,0.00040503242,0.00016429726,0.0002857913],"genre_scores_gemma":[0.99230105,0.00017931932,0.0062846267,0.0003603632,0.00009589631,0.00017678057,0.000056236284,0.000088579385,0.0004571782],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99558824,0.0010169494,0.0012771491,0.0007007357,0.0006639259,0.00075301476],"domain_scores_gemma":[0.997273,0.00064135133,0.0007332552,0.00097520655,0.00023533206,0.00014185665],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0014989593,0.0004611876,0.0010250066,0.00008922296,0.00020348105,0.0002546566,0.00067014596,0.00014481453,0.011084236],"category_scores_gemma":[0.0007828017,0.00034841878,0.00013294151,0.00032183522,0.0003824036,0.0003854182,0.00010569731,0.00007961476,0.0005020638],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033048494,0.00009436443,0.000042726253,0.000027008009,0.000055433713,0.000005225218,0.00034303538,0.000032673073,0.9937642,0.0051330216,0.0000460433,0.00012574176],"study_design_scores_gemma":[0.0016106906,0.0004480308,0.00046043398,0.00004772741,0.00021679532,0.000011929985,0.00024128948,0.0000022253237,0.99207985,0.0032346593,0.0012495515,0.00039682412],"about_ca_topic_score_codex":0.0001861835,"about_ca_topic_score_gemma":0.000026421078,"teacher_disagreement_score":0.010582172,"about_ca_system_score_codex":0.000078488665,"about_ca_system_score_gemma":0.0001389475,"threshold_uncertainty_score":0.99989676},"labels":[],"label_agreement":null},{"id":"W2066407233","doi":"10.1002/adma.201101065","title":"Depleted Bulk Heterojunction Colloidal Quantum Dot Photovoltaics","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":224,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photovoltaics; Quantum dot; Heterojunction; Nanotechnology; Colloid; Optoelectronics; Engineering physics; Photovoltaic system; Chemical engineering; Physics","score_opus":0.03847956704388083,"score_gpt":0.23480484445097988,"score_spread":0.19632527740709904,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2066407233","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939419,0.00018463003,0.0002108288,0.000025029314,0.00312186,0.00038129234,0.00012176936,0.00033809125,0.001674616],"genre_scores_gemma":[0.9956344,0.00009028981,0.0034030331,0.00018836664,0.0001578355,0.00014473766,0.000013944885,0.000057775032,0.00030963248],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978739,0.00016873739,0.0005746342,0.00049412646,0.00035988013,0.0005287234],"domain_scores_gemma":[0.9989036,0.000055979224,0.00026117795,0.0004988488,0.00016469367,0.000115748124],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006476703,0.000302042,0.00045843088,0.00008176049,0.0002352141,0.00013000322,0.00033223326,0.00012664346,0.005764685],"category_scores_gemma":[0.00019955897,0.00024112877,0.00006961795,0.00011502576,0.00014775583,0.0005594955,0.00010775907,0.00006106205,0.0012048621],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000517485,0.000089378016,0.000014607776,0.00004844459,0.000009268541,0.000009503983,0.00033540328,0.000004120395,0.99691236,0.0013699287,0.00035561982,0.00033388304],"study_design_scores_gemma":[0.0004199348,0.00029064313,0.00021626664,0.000052478088,0.000023333023,0.000019469664,0.00010958937,0.000009548747,0.9846868,0.0032669145,0.010554448,0.0003505687],"about_ca_topic_score_codex":0.00029828175,"about_ca_topic_score_gemma":0.000026029009,"teacher_disagreement_score":0.0122255515,"about_ca_system_score_codex":0.00007156212,"about_ca_system_score_gemma":0.000050072482,"threshold_uncertainty_score":0.9995728},"labels":[],"label_agreement":null},{"id":"W2067834603","doi":"10.1002/(sici)1521-4095(200002)12:3<198::aid-adma198>3.0.co;2-2","title":"Mesoporous Yttria-Zirconia and Metal-Yttria-Zirconia Solid Solutions for Fuel Cells","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Solid Oxide Fuel Cells","field":"Materials Science","cited_by":119,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Cubic zirconia; Yttria-stabilized zirconia; Mesoporous material; Ternary operation; Metal; Chemical engineering; Fuel cells; Nanotechnology; Ceramic; Composite material; Metallurgy; Catalysis; Organic chemistry; Computer science; Chemistry","score_opus":0.019622443189202178,"score_gpt":0.2817130546937099,"score_spread":0.2620906115045077,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2067834603","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9739944,0.0036617965,0.0072771716,0.0003560918,0.005474104,0.0035429623,0.0021199307,0.0006885288,0.002885031],"genre_scores_gemma":[0.89104784,0.0029031385,0.09389901,0.00097493315,0.0009147825,0.0010877886,0.0001344465,0.00025283426,0.008785205],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9950718,0.00023433662,0.001305874,0.001229326,0.0005590979,0.0015995147],"domain_scores_gemma":[0.99749684,0.0004105847,0.0005044078,0.0010034604,0.00026921622,0.00031548194],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0016507782,0.0006667043,0.0011485023,0.00013826592,0.0006135007,0.00030747132,0.00063443,0.00024816563,0.008261617],"category_scores_gemma":[0.00025798223,0.0006513738,0.00014849742,0.00021469516,0.00042076633,0.0012103978,0.00025675885,0.00012373753,0.0012161245],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004098269,0.0001214521,0.0000015382742,0.00023996142,0.00004321076,0.000013929846,0.00019926054,0.00073586096,0.99329007,0.0009830092,0.00081287965,0.0031489802],"study_design_scores_gemma":[0.002689737,0.0002470616,0.000021597769,0.00006159095,0.00014089291,0.00003326784,0.00008916734,0.000025163556,0.8789056,0.013654419,0.10342687,0.00070463837],"about_ca_topic_score_codex":0.000039035684,"about_ca_topic_score_gemma":0.000022582335,"teacher_disagreement_score":0.1143845,"about_ca_system_score_codex":0.00019688616,"about_ca_system_score_gemma":0.00013006682,"threshold_uncertainty_score":0.99959373},"labels":[],"label_agreement":null},{"id":"W2067871619","doi":"10.1002/adma.200990071","title":"Organic Semiconductors: Relating the Functional Properties of an Organic Semiconductor to Molecular Structure by nc‐AFM (Adv. Mater. 20/2009)","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Surface Roughness and Optical Measurements","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Materials science; Monolayer; Organic semiconductor; Nanoscopic scale; Semiconductor; Optoelectronics; Nanotechnology; Atomic force microscopy; Excitation","score_opus":0.01196156121265677,"score_gpt":0.20561738526735934,"score_spread":0.19365582405470258,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2067871619","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997564,0.00060213334,0.00023022662,0.00009588192,0.0007870831,0.00038513937,0.00009748238,0.00018824113,0.000049772407],"genre_scores_gemma":[0.9982776,0.000012916509,0.0012402243,0.0002055642,0.00008344868,0.0000138179075,0.0000376736,0.00006647362,0.00006229025],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99848187,0.000061557825,0.0004545578,0.0002867909,0.00035211627,0.00036313414],"domain_scores_gemma":[0.99926174,0.000016004647,0.0000821776,0.00039298675,0.00014129137,0.00010581389],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017875031,0.00028744084,0.000347565,0.000039026465,0.00008267026,0.00006507216,0.00024297035,0.0001206198,0.0007352986],"category_scores_gemma":[0.00013324026,0.00020711146,0.0000328707,0.00019730184,0.000030161262,0.0003810338,0.000035861583,0.00011772975,0.000024895578],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034703044,0.000018477838,0.000010881875,0.00006128792,0.000033381897,0.0000015283437,0.00016736859,0.0037499676,0.9955094,0.00004192101,0.00011024941,0.00026084698],"study_design_scores_gemma":[0.000300181,0.00008746912,0.00019976904,0.000090796544,0.000026612077,0.000008230564,0.00012603671,0.000036293102,0.99807805,0.00039030655,0.00038943428,0.00026683617],"about_ca_topic_score_codex":0.000005038479,"about_ca_topic_score_gemma":0.0000024767014,"teacher_disagreement_score":0.0037136744,"about_ca_system_score_codex":0.000098872166,"about_ca_system_score_gemma":0.000025133673,"threshold_uncertainty_score":0.844576},"labels":[],"label_agreement":null},{"id":"W2067944387","doi":"10.1002/adma.200306111","title":"Intracellular Delivery of Quantum Dots for Live Cell Labeling and Organelle Tracking","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":547,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Quantum dot; Organelle; Intracellular; Mitochondrion; Nanotechnology; Tracking (education); Materials science; Nucleus; Subcellular localization; Cell; Semiconductor; Gene delivery; Biophysics; Cell biology; Cytoplasm; Gene; Biology; Optoelectronics; Biochemistry; Transfection","score_opus":0.008350813515419876,"score_gpt":0.24711188527798217,"score_spread":0.23876107176256228,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2067944387","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9872807,0.00088315725,0.011406854,0.000033381464,0.00007686671,0.00021800182,0.00005939171,0.000025978932,0.000015623988],"genre_scores_gemma":[0.9530083,0.0009808214,0.045728236,0.000056763078,0.00007768297,0.000010091586,0.00007928573,0.000023790762,0.000035056742],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999158,0.000018736013,0.00027304067,0.00029097465,0.00007496256,0.0001842907],"domain_scores_gemma":[0.9993992,0.000015410427,0.0001723135,0.00019182425,0.00018332415,0.0000379335],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001823909,0.00014536167,0.00023797841,0.00003432023,0.00006722901,0.000015761601,0.00007742353,0.00011429901,0.0000022493984],"category_scores_gemma":[0.00007999255,0.00013303294,0.00004910591,0.0000444804,0.00007095116,0.000008379643,0.00005461744,0.00002765222,8.1344893e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000130316,0.0000383656,0.0000084192225,0.00007391346,0.000019769579,0.0000016689262,0.00003450249,0.00009185105,0.9983055,0.0000952012,0.0000095090445,0.0011909687],"study_design_scores_gemma":[0.00061341963,0.00027088058,0.00001174927,0.000048516657,0.00003891986,0.000006334584,0.00011789446,0.0000055874975,0.996742,0.0013562908,0.0006194553,0.00016894858],"about_ca_topic_score_codex":0.000012035191,"about_ca_topic_score_gemma":0.0000042544107,"teacher_disagreement_score":0.034321386,"about_ca_system_score_codex":0.000012920933,"about_ca_system_score_gemma":0.000030201572,"threshold_uncertainty_score":0.54249257},"labels":[],"label_agreement":null},{"id":"W2069200721","doi":"10.1002/1521-4095(200110)13:19<1468::aid-adma1468>3.0.co;2-o","title":"Tin Dioxide Opals and Inverted Opals: Near-Ideal Microstructures for Gas Sensors","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gas Sensing Nanomaterials and Sensors","field":"Engineering","cited_by":375,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Tin dioxide; Microstructure; Tin; Ideal (ethics); Nanotechnology; Optoelectronics; Chemical engineering; Composite material; Metallurgy","score_opus":0.008384120765390371,"score_gpt":0.21953582292646578,"score_spread":0.21115170216107543,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2069200721","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970471,0.00023394333,0.00013695072,0.00009409012,0.0012759398,0.0004949927,0.00017518815,0.00040676343,0.00013499935],"genre_scores_gemma":[0.98338467,0.00044334907,0.015511577,0.00013518377,0.0002187246,0.000026598798,0.000051643827,0.00010463077,0.0001236393],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99850017,0.000054089258,0.00048115922,0.0003178073,0.00012724091,0.0005195203],"domain_scores_gemma":[0.9993494,0.00010472755,0.00008589851,0.00026130877,0.000076758915,0.00012190925],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002237045,0.00032671916,0.00054546224,0.00006598277,0.0001396252,0.00019425631,0.00010340009,0.0001398439,0.00009689061],"category_scores_gemma":[0.00015253479,0.0003092148,0.000049524384,0.00008490903,0.000084730455,0.00016118029,0.000036363475,0.00004568801,0.000022834018],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012832017,0.0000049279624,0.000051528787,0.00010920239,0.000029052135,0.000020024698,0.00014198855,0.0028009883,0.9946639,0.00007653438,0.0005296549,0.0014439095],"study_design_scores_gemma":[0.0010097618,0.000056197074,0.0015193521,0.00006635222,0.000028305196,0.00011419255,0.000046653575,0.00043387024,0.9764965,0.0014478745,0.018389782,0.00039113287],"about_ca_topic_score_codex":0.00005720246,"about_ca_topic_score_gemma":0.000020678091,"teacher_disagreement_score":0.018167341,"about_ca_system_score_codex":0.000043346274,"about_ca_system_score_gemma":0.00001219536,"threshold_uncertainty_score":0.999936},"labels":[],"label_agreement":null},{"id":"W2069917034","doi":"10.1002/adma.200304491","title":"Spin‐on Nanostructured Silicon–Silica Film Displaying Room‐Temperature Nanosecond Lifetime Photoluminescence","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; University of Toronto","funders":"","keywords":"Materials science; Nanoclusters; Nanosecond; Photoluminescence; Silicon; Ultraviolet; Optoelectronics; Nanocomposite; Chemical vapor deposition; Evaporation; Ultraviolet light; Mesoporous silica; Visible spectrum; Excited state; Mesoporous material; Nanotechnology; Optics; Laser","score_opus":0.005893117237064593,"score_gpt":0.2386643576302916,"score_spread":0.232771240393227,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2069917034","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9901666,0.00041754407,0.000004416151,0.000103260754,0.006147465,0.0010397994,0.0005063658,0.00029833202,0.0013161986],"genre_scores_gemma":[0.9957845,0.000075323274,0.00091230794,0.0013785444,0.00027461394,0.0001734966,0.00007017825,0.00011374874,0.0012172555],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9952267,0.0003411374,0.0010057017,0.0014457074,0.0007820568,0.0011987322],"domain_scores_gemma":[0.9973213,0.00019454889,0.00050674914,0.0013297151,0.0002717946,0.0003758574],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005622856,0.0008425738,0.0009946646,0.00015758857,0.0005500572,0.00044106963,0.00084787665,0.00042681038,0.0076525453],"category_scores_gemma":[0.001096095,0.0007275158,0.00017059495,0.00044775743,0.00024533086,0.00060591113,0.00012707576,0.00027904194,0.00053328485],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029920987,0.000061567116,0.00014109984,0.000115712355,0.00001291713,0.00004989472,0.00015799147,0.000050015962,0.9957541,0.0017250025,0.001510204,0.0001222873],"study_design_scores_gemma":[0.0012585543,0.00023902569,0.0015354719,0.00019508264,0.000027944283,0.00015243673,0.0000904967,0.000003432244,0.98523104,0.00053809636,0.00984415,0.00088426983],"about_ca_topic_score_codex":0.000053372063,"about_ca_topic_score_gemma":0.000022881284,"teacher_disagreement_score":0.010523059,"about_ca_system_score_codex":0.00012980613,"about_ca_system_score_gemma":0.00018435408,"threshold_uncertainty_score":0.9995176},"labels":[],"label_agreement":null},{"id":"W2070063208","doi":"10.1002/adma.201101086","title":"Protection and Promotion of UV Radiation‐Induced Liposome Leakage via DNA‐Directed Assembly with Gold Nanoparticles","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Colloidal gold; Liposome; Nanoparticle; Linker; Leakage (economics); DNA; Nanotechnology; Chemistry; Biochemistry","score_opus":0.01590247046788628,"score_gpt":0.24051085290658783,"score_spread":0.22460838243870154,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2070063208","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99838006,0.00004869207,0.00097589655,0.000026324831,0.00005068457,0.00035417345,0.000011724901,0.00008169314,0.00007076671],"genre_scores_gemma":[0.991782,0.000087567154,0.007916062,0.00001658671,0.000050552888,0.00004307489,0.000035033005,0.00002079807,0.000048326856],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991407,0.00006981879,0.00023994794,0.0002897633,0.00010508068,0.00015472532],"domain_scores_gemma":[0.9994102,0.000003519986,0.00017314905,0.00022161611,0.00015091254,0.000040607774],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015817193,0.0001467775,0.00020128176,0.000051350977,0.00004503032,0.000012278377,0.000056537232,0.00010544381,0.000002933967],"category_scores_gemma":[0.000055737542,0.00011713964,0.000025205696,0.00010915197,0.00006172975,0.000019760195,0.000032767806,0.00002950283,8.751348e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002906513,0.00007157071,0.000052824395,0.000030166975,0.00003672387,0.0000012187477,0.00003067804,8.62822e-7,0.9911618,0.000014653548,0.000005392392,0.008303455],"study_design_scores_gemma":[0.00036505255,0.00093081256,0.0020476673,0.00003516604,0.00003816694,0.000017405186,0.00001582492,0.0000058704754,0.99613214,0.00015965156,0.000090241585,0.00016203315],"about_ca_topic_score_codex":0.00003061512,"about_ca_topic_score_gemma":0.000026388505,"teacher_disagreement_score":0.008141422,"about_ca_system_score_codex":0.000012449568,"about_ca_system_score_gemma":0.000016796146,"threshold_uncertainty_score":0.4776816},"labels":[],"label_agreement":null},{"id":"W2070416332","doi":"10.1002/adma.200602276","title":"Nanostructuring of a Titanium Material by High‐Pressure Torsion Improves Pre‐Osteoblast Attachment","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Surface Treatment and Residual Stress","field":"Engineering","cited_by":132,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Russian Foundation for Basic Research","keywords":"Materials science; Titanium; Osteoblast; Nanostructure; Titanium oxide; Torsion (gastropod); Oxide; Nanotechnology; Substrate (aquarium); Chemical engineering; Metallurgy","score_opus":0.002315665660634161,"score_gpt":0.2081803880390884,"score_spread":0.20586472237845424,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2070416332","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960225,0.00034381982,0.00009487852,0.0000048908014,0.0023628299,0.00030452944,0.00034734025,0.00020733433,0.00031183637],"genre_scores_gemma":[0.9976887,0.00008912437,0.001709183,0.000004172435,0.00012688375,0.000021215794,0.000078716315,0.000046319015,0.0002356461],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988634,0.000015841386,0.0003769816,0.00019297736,0.00021510814,0.00033568303],"domain_scores_gemma":[0.99957603,0.000026174748,0.000089181274,0.00020750014,0.000035335142,0.000065747954],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011946135,0.0002297397,0.00031122088,0.000043776177,0.00004520287,0.00003106401,0.00012548157,0.00011356435,0.00040095832],"category_scores_gemma":[0.0000084597905,0.00019367885,0.00003456239,0.00005619421,0.00003148529,0.00017161749,0.000052861607,0.000036766527,0.000010180734],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020249793,0.00001963482,0.000051305145,0.00015438448,0.00007179173,0.000004225963,0.00006960855,0.00059835357,0.99729854,0.000027763925,0.0003141115,0.0011877631],"study_design_scores_gemma":[0.00061265775,0.00010526657,0.002961081,0.000062363266,0.00003891738,0.00000235215,0.00003988391,0.0000028501024,0.99354047,0.000058361256,0.0023772034,0.00019858243],"about_ca_topic_score_codex":0.000071924354,"about_ca_topic_score_gemma":0.000008017273,"teacher_disagreement_score":0.0037580787,"about_ca_system_score_codex":0.00005605746,"about_ca_system_score_gemma":0.0000048710617,"threshold_uncertainty_score":0.78979945},"labels":[],"label_agreement":null},{"id":"W2070595011","doi":"10.1002/adma.200701408","title":"Template‐ and Surfactant‐free Room Temperature Synthesis of Self‐Assembled 3D Pt Nanoflowers from Single‐Crystal Nanowires","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":248,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal; Institut National de la Recherche Scientifique","funders":"Natural Sciences and Engineering Research Council of Canada; General Motors of Canada","keywords":"Materials science; Pulmonary surfactant; Nanowire; Nanotechnology; Electrode; Single crystal; Chemical engineering; Crystallography; Physical chemistry; Chemistry","score_opus":0.0066209884502560256,"score_gpt":0.1939875654974504,"score_spread":0.18736657704719437,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2070595011","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971205,0.00045496708,0.0000059847853,0.00005794335,0.00057635835,0.00016770548,0.00009422199,0.00027134226,0.0012509759],"genre_scores_gemma":[0.9933152,0.00051401055,0.0056489278,0.00004497436,0.00009782192,0.00002637855,0.00007884272,0.000091313275,0.0001825335],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99770045,0.00015078817,0.00058657717,0.00057313277,0.0005122903,0.00047673783],"domain_scores_gemma":[0.9983081,0.00032679888,0.00030946961,0.00072519487,0.00020390784,0.00012651626],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020409194,0.00040882823,0.0007674726,0.00013561353,0.00021029726,0.00004020403,0.0003663487,0.00028263434,0.0002522751],"category_scores_gemma":[0.00036788528,0.00037586948,0.0000881909,0.00021853625,0.00006238086,0.0005138168,0.00016675574,0.00008883301,0.000023076615],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040313182,0.00009434474,0.00008372528,0.000063352825,0.00016672883,0.00006473283,0.00019879435,0.00017901996,0.9978975,0.00016536965,0.0002756775,0.0004076215],"study_design_scores_gemma":[0.0010212888,0.00014444327,0.0003551401,0.00013969142,0.00008642157,0.00004585781,0.00006357167,0.0000052182404,0.9927021,0.00032873367,0.0046964064,0.0004111131],"about_ca_topic_score_codex":0.0013257411,"about_ca_topic_score_gemma":0.00037277676,"teacher_disagreement_score":0.005642943,"about_ca_system_score_codex":0.00017161862,"about_ca_system_score_gemma":0.00009680169,"threshold_uncertainty_score":0.99986935},"labels":[],"label_agreement":null},{"id":"W2071345420","doi":"10.1002/adma.200305120","title":"Light‐Induced Reorganization in Self‐Assembled Liquid Crystal Gels: Electrically Switchable Diffraction Gratings","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"","keywords":"Azobenzene; Materials science; Diffraction; Liquid crystal; Diffraction grating; Grating; Irradiation; Nanometre; Optoelectronics; Nanotechnology; Optics; Polymer; Composite material","score_opus":0.011302336787619886,"score_gpt":0.2734853635943827,"score_spread":0.2621830268067628,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2071345420","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949417,0.000061300416,0.0015508196,0.00014742701,0.0007622057,0.00097340764,0.000008185739,0.00031325963,0.0012416954],"genre_scores_gemma":[0.9916489,0.00011573858,0.0074779587,0.00013742229,0.000092318354,0.00023536696,0.000015004757,0.00008503081,0.00019223671],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9959349,0.00046742446,0.0008890389,0.00078474457,0.00088337215,0.0010404933],"domain_scores_gemma":[0.99832577,0.00014357983,0.00038952293,0.0005166327,0.00041949376,0.00020502986],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0015190569,0.00036621853,0.0005142068,0.000248466,0.00022632307,0.00024983607,0.00035138216,0.00016127064,0.0010816138],"category_scores_gemma":[0.0023838296,0.00035278942,0.00004126485,0.0007926558,0.000012595415,0.0017400158,0.00011583476,0.00016815847,0.0003100051],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004373836,0.00022889549,0.000026119516,0.00006432732,0.0000072623893,0.00002269181,0.00017654302,0.00007120026,0.9971676,0.0016805494,0.000043189026,0.00007422569],"study_design_scores_gemma":[0.001348819,0.00068174297,0.00012323655,0.00006851826,0.000009637358,0.000017098757,0.000095044714,0.0000071219856,0.9920181,0.0020731385,0.0031752486,0.00038231272],"about_ca_topic_score_codex":0.00005466253,"about_ca_topic_score_gemma":0.000042246644,"teacher_disagreement_score":0.005927139,"about_ca_system_score_codex":0.00074757496,"about_ca_system_score_gemma":0.00026861124,"threshold_uncertainty_score":0.9998924},"labels":[],"label_agreement":null},{"id":"W2071505248","doi":"10.1002/adma.200390071","title":"Spontaneous Vertical Ordering and Pyrolytic Formation of Nanoscopic Ceramic Patterns from Poly(styrene‐<i>b</i>‐ferrocenylsilane)","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Polymer Synthesis and Characterization","field":"Chemistry","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Styrene; Pyrolytic carbon; Copolymer; Nanoscopic scale; Amorphous solid; Ceramic; Thin film; Chemical engineering; Polymer; Highly oriented pyrolytic graphite; Nanoparticle; Substrate (aquarium); Spin coating; Nanotechnology; Pyrolysis; Composite material; Crystallography; Graphite","score_opus":0.007194689126562475,"score_gpt":0.214086706038562,"score_spread":0.20689201691199952,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2071505248","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964957,0.00046756325,0.00215609,0.000016091464,0.00020838228,0.00007397715,0.00015590702,0.00006176434,0.00036447606],"genre_scores_gemma":[0.9986665,0.0003019081,0.0006954901,0.000051091683,0.000054329448,0.000019557614,0.000114709284,0.000035542547,0.000060843096],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988517,0.000029440032,0.0004454115,0.00025697294,0.00016946445,0.000247019],"domain_scores_gemma":[0.9994101,0.00008760497,0.00014073412,0.00025151216,0.000042261272,0.00006781645],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00004899796,0.00020229333,0.00033982017,0.000033487042,0.00006331553,0.000034479875,0.00008795156,0.00010314245,0.0009871371],"category_scores_gemma":[0.00010833743,0.00019980456,0.000027918526,0.000035288154,0.00003483235,0.00027742042,0.000030927928,0.00005202219,0.000008773754],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008151515,0.000031301748,0.0002220232,0.00016740171,0.0000121314915,0.000017827324,0.00015197792,0.000007761985,0.9956294,0.00020490112,7.3188335e-7,0.003473052],"study_design_scores_gemma":[0.0005278869,0.000023313336,0.0005664435,0.00018400201,0.000032716882,0.00006879027,0.00010502801,0.000030648876,0.9974359,0.00041151195,0.0004104658,0.00020328227],"about_ca_topic_score_codex":0.000035043908,"about_ca_topic_score_gemma":0.000013941777,"teacher_disagreement_score":0.0032697697,"about_ca_system_score_codex":0.00005091897,"about_ca_system_score_gemma":0.000020050964,"threshold_uncertainty_score":0.9999261},"labels":[],"label_agreement":null},{"id":"W2073260797","doi":"10.1002/adma.201103372","title":"Near‐Room‐Temperature Mid‐Infrared Quantum Well Photodetector","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Semiconductor Detectors and Materials","field":"Engineering","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada; Institute for Microstructural Sciences","funders":"National Key Research and Development Program of China","keywords":"Materials science; Photodetector; Infrared; Optoelectronics; Quantum well infrared photodetector; Specific detectivity; Quantum yield; Reproducibility; Optics; Quantum well; Dark current; Fluorescence","score_opus":0.012301440524778932,"score_gpt":0.20924039763132196,"score_spread":0.19693895710654302,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2073260797","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9896507,0.00044248113,0.00013009028,0.000002097427,0.0053151264,0.00047900685,0.0001923012,0.0011455198,0.0026426227],"genre_scores_gemma":[0.9917655,0.00025577037,0.0068362593,0.00008496625,0.00024335893,0.0001435302,0.000044257587,0.00017892233,0.0004474286],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99803823,0.000051992698,0.0005893391,0.00043212128,0.00022778785,0.0006605413],"domain_scores_gemma":[0.9989396,0.00003248872,0.000114191156,0.0006340267,0.00009836884,0.00018136126],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017941993,0.0004874686,0.0006249607,0.00008155745,0.00012895612,0.00011481275,0.0003398784,0.0002503679,0.0034354453],"category_scores_gemma":[0.00006169624,0.00045799825,0.00008637546,0.00015982868,0.00007095299,0.0005361992,0.0000702263,0.00014695828,0.00048404263],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000113377966,0.00002005018,0.0000035830517,0.00013532279,0.000035896337,0.000024110912,0.0003478541,0.00021707977,0.99816346,0.00007643577,0.0006600594,0.00020275186],"study_design_scores_gemma":[0.0006460529,0.00008905978,0.00012203281,0.00006605184,0.000022114928,0.00001803942,0.00006495449,0.000018741748,0.9756081,0.0027226317,0.020052683,0.0005695333],"about_ca_topic_score_codex":0.000019189005,"about_ca_topic_score_gemma":0.000005132137,"teacher_disagreement_score":0.022555372,"about_ca_system_score_codex":0.00009960958,"about_ca_system_score_gemma":0.00002816029,"threshold_uncertainty_score":0.99978715},"labels":[],"label_agreement":null},{"id":"W2078818176","doi":"10.1002/adma.200901498","title":"Vacuum‐Assisted Aerosol Deposition of a Low‐Dielectric‐Constant Periodic Mesoporous Organosilica Film","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mesoporous Materials and Catalysis","field":"Materials Science","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Government of Canada","keywords":"Materials science; Dielectric; Deposition (geology); Mesoporous material; Chemical vapor deposition; Semiconductor; Thin film; Mesoporous organosilica; Nanotechnology; Optoelectronics; Chemical engineering; Mesoporous silica; Organic chemistry","score_opus":0.006446848962282332,"score_gpt":0.23150445856350205,"score_spread":0.2250576096012197,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2078818176","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958725,0.0004484415,0.0006161613,0.00018519405,0.0007593459,0.0006712512,0.0002787275,0.0002680129,0.0009003966],"genre_scores_gemma":[0.9947516,0.00015732457,0.00414916,0.00040708893,0.00013395288,0.000080650985,0.00013475925,0.000044156404,0.00014133094],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9964988,0.00024990286,0.0012348122,0.00070595666,0.0006209997,0.0006895149],"domain_scores_gemma":[0.99789405,0.00007268986,0.0007542124,0.000788778,0.00031777078,0.0001724762],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00073534204,0.00043779943,0.0010297344,0.00014780127,0.00024356626,0.00019288981,0.0004761971,0.00019569806,0.0034814954],"category_scores_gemma":[0.00017898285,0.00038664613,0.00013481993,0.00038444655,0.00013778855,0.00044645194,0.00008199173,0.000071842696,0.00023263326],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038176932,0.00023687669,0.0000032072633,0.00012934885,0.000017812701,0.00003834243,0.00025249898,0.000019862793,0.99621326,0.000707777,0.00018666123,0.0018125569],"study_design_scores_gemma":[0.00089678174,0.0004656844,0.0002506004,0.0001274553,0.00009008381,0.00009195317,0.000090967704,0.000006221671,0.9966858,0.0007867929,0.000079933285,0.0004277437],"about_ca_topic_score_codex":0.00005705573,"about_ca_topic_score_gemma":0.000009839019,"teacher_disagreement_score":0.0035329985,"about_ca_system_score_codex":0.00014348517,"about_ca_system_score_gemma":0.00014617073,"threshold_uncertainty_score":0.99985856},"labels":[],"label_agreement":null},{"id":"W2078861171","doi":"10.1002/adma.200903248","title":"Oxidized Gold Thin Films: An Effective Material for High‐Performance Flexible Organic Optoelectronics","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Indium tin oxide; Thin film; OLED; Optoelectronics; De facto; Anode; Nanotechnology; Solid-state; Indium; Engineering physics; Electrode; Layer (electronics)","score_opus":0.005487591614093257,"score_gpt":0.2488703232163608,"score_spread":0.24338273160226753,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2078861171","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99460596,0.00010486161,0.0009918242,0.00003814951,0.0013763608,0.0013648157,0.00015099703,0.0011707086,0.00019630115],"genre_scores_gemma":[0.987236,0.00016393121,0.011329905,0.0000736906,0.00042123336,0.00023380997,0.00016835572,0.00013711542,0.00023593489],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978191,0.00007452527,0.0004656066,0.0004390441,0.00030542823,0.0008962823],"domain_scores_gemma":[0.998993,0.000104854116,0.00008222202,0.0005480695,0.00013798849,0.00013388338],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00059629406,0.00037172815,0.0005471313,0.0001125839,0.000114342394,0.0001767637,0.0004440083,0.00019748,0.0005614999],"category_scores_gemma":[0.00014936236,0.00036216198,0.00004293795,0.00023718982,0.000032277032,0.0007180029,0.000049093647,0.0001489686,0.00011470092],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003602925,0.000045332803,0.0000018813508,0.0001768977,0.000037364793,0.0000021511282,0.00010761484,0.0005987999,0.9964035,0.0004716725,0.0003844419,0.0014100384],"study_design_scores_gemma":[0.0016711531,0.00092516746,0.0002276841,0.00006225796,0.00002361339,0.000008182096,0.000016379887,0.00049908,0.99487597,0.000585232,0.0006777675,0.00042754345],"about_ca_topic_score_codex":0.0000061379847,"about_ca_topic_score_gemma":0.0000021820265,"teacher_disagreement_score":0.010338081,"about_ca_system_score_codex":0.00031991032,"about_ca_system_score_gemma":0.000051879946,"threshold_uncertainty_score":0.99988306},"labels":[],"label_agreement":null},{"id":"W2080387245","doi":"10.1002/adma.201290298","title":"Pulsed Laser Ablation based Direct Synthesis of Single‐Wall Carbon Nanotube/PbS Quantum Dot Nanohybrids Exhibiting Strong, Spectrally Wide and Fast Photoresponse (Adv. Mater. 47/2012)","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon Nanotubes in Composites","field":"Materials Science","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"","keywords":"Materials science; Carbon nanotube; Quantum dot; Laser ablation; Laser; Nanotechnology; Optoelectronics; Photoconductivity; Optics","score_opus":0.01089028068236798,"score_gpt":0.23710786531622746,"score_spread":0.2262175846338595,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2080387245","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99564826,0.00031471567,0.000100978934,0.000084348925,0.0016309146,0.00069522735,0.00027534488,0.0002714903,0.0009787144],"genre_scores_gemma":[0.9942874,0.000029936737,0.004936262,0.00011604504,0.00021866837,0.00013632288,0.00002924594,0.00012371891,0.0001224556],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99576765,0.0006285293,0.0011351429,0.00072456186,0.00069912936,0.0010450082],"domain_scores_gemma":[0.99665433,0.0014557602,0.00071116386,0.0007645038,0.00020380193,0.00021044885],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0019155422,0.0005778396,0.0009968592,0.00026596957,0.00016991782,0.00020598545,0.00036773246,0.00017822297,0.000613189],"category_scores_gemma":[0.0010510142,0.0005597347,0.00011448415,0.00022867213,0.00027935128,0.0009802337,0.00019406172,0.000088236244,0.000026523096],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012316774,0.00019197742,0.0013642171,0.00024833268,0.00002234175,0.000011633317,0.00017918221,0.00022583712,0.9961982,0.00011491229,0.000021346248,0.00019034484],"study_design_scores_gemma":[0.0008408935,0.000201626,0.0030372308,0.000435493,0.00010584405,0.000021279435,0.000054145283,0.00012416624,0.99416137,0.000107597836,0.00030479513,0.00060556043],"about_ca_topic_score_codex":0.00022172596,"about_ca_topic_score_gemma":0.00003491381,"teacher_disagreement_score":0.004835283,"about_ca_system_score_codex":0.00027711026,"about_ca_system_score_gemma":0.00009349488,"threshold_uncertainty_score":0.9996854},"labels":[],"label_agreement":null},{"id":"W2081731065","doi":"10.1002/adma.201204831","title":"Fast, Reversible, and General Photomechanical Motion in Single Crystals of Various Azo Compounds Using Visible Light","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":181,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Microsecond; Materials science; Motion (physics); Visible spectrum; Bending; Irradiation; Wavelength; Photochromism; Orientation (vector space); Optoelectronics; Nanotechnology; Optics; Computer science; Physics; Composite material; Computer vision","score_opus":0.012957120963733613,"score_gpt":0.23981582888237815,"score_spread":0.22685870791864454,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2081731065","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980184,0.000062962645,0.00087435136,0.000025398778,0.00028480194,0.0003760811,0.000043161326,0.00003923723,0.00027559433],"genre_scores_gemma":[0.9849955,0.000023794137,0.014738667,0.00004832141,0.000059581027,0.0000303435,0.000010113721,0.000019863925,0.00007381253],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985297,0.000059435,0.00050186913,0.0003627635,0.00020773272,0.00033850767],"domain_scores_gemma":[0.9993015,0.0000319072,0.00022517385,0.0002592846,0.00009728294,0.000084874475],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003117096,0.00018125265,0.00043010447,0.00007212634,0.000056879675,0.00008375966,0.00017733965,0.00011717806,0.0006895625],"category_scores_gemma":[0.000062064755,0.00017353539,0.000027522532,0.00012927341,0.00009421547,0.0005191657,0.00014113412,0.000051497413,0.000020885893],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046416204,0.00007636287,0.000041133415,0.0001140981,0.0000029878322,0.000005037333,0.00008868127,0.000071395254,0.9993608,0.00005066902,0.000049443057,0.00009298567],"study_design_scores_gemma":[0.00065986195,0.000053028787,0.00027105396,0.0001418197,0.000008691358,0.000026245298,0.00005665603,0.00018457975,0.99662155,0.0017567,0.000033909593,0.00018592367],"about_ca_topic_score_codex":0.00033681587,"about_ca_topic_score_gemma":0.0000049133955,"teacher_disagreement_score":0.013864315,"about_ca_system_score_codex":0.00012079067,"about_ca_system_score_gemma":0.000037139947,"threshold_uncertainty_score":0.7550226},"labels":[],"label_agreement":null},{"id":"W2081923496","doi":"10.1002/1521-4095(200111)13:21<1614::aid-adma1614>3.0.co;2-d","title":"Nanostructured Fullerene Films","year":2001,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Fullerene Chemistry and Applications","field":"Chemistry","cited_by":71,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Trois-Rivières","funders":"","keywords":"Materials science; Fullerene; Nanoporous; Thin film; Toluene; Deposition (geology); Chemical engineering; Nanotechnology; Morphology (biology); Acetonitrile; Organic chemistry","score_opus":0.008533188881165886,"score_gpt":0.2376226322823914,"score_spread":0.2290894434012255,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2081923496","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9556847,0.000084364096,0.00003904826,0.00014941432,0.00019463201,0.000050304738,0.00011355834,0.00020016609,0.043483764],"genre_scores_gemma":[0.9885511,0.00012565224,0.002186237,0.000088515364,0.00020997174,0.00010006377,0.00020489127,0.000027202414,0.00850636],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99906194,0.000004916395,0.00024996867,0.00029103673,0.0001364274,0.00025570407],"domain_scores_gemma":[0.99927825,0.0000257665,0.00010374888,0.0004525483,0.000058924124,0.00008076417],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00003950847,0.00017115731,0.00019663849,0.000012209684,0.00010746781,0.00003758003,0.00021997087,0.000108283246,0.027997002],"category_scores_gemma":[0.00006272704,0.00016422031,0.000039417428,0.00007589778,0.000043698205,0.00008031286,0.000053939926,0.000055923763,0.00017819734],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005286082,0.00002326026,0.000014982663,0.000042505846,0.000011067459,0.0000071875293,0.000015592974,0.000023184712,0.9962391,0.00032372377,0.0015462828,0.0017002436],"study_design_scores_gemma":[0.0003898049,0.000004204523,0.000036113976,0.00002229846,0.000008194598,0.00003444296,0.000042486165,0.0000013069056,0.8800713,0.0016853426,0.11752843,0.00017609287],"about_ca_topic_score_codex":0.0000062841755,"about_ca_topic_score_gemma":0.0000013176389,"teacher_disagreement_score":0.11616782,"about_ca_system_score_codex":0.00002633726,"about_ca_system_score_gemma":0.000021004773,"threshold_uncertainty_score":0.97289157},"labels":[],"label_agreement":null},{"id":"W2082921415","doi":"10.1002/adma.200590019","title":"Cover Picture: Colloidal Crystal Capillary Columns—Towards Optical Chromatography (Adv. Mater. 4/2005)","year":2005,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Diatoms and Algae Research","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Wavelength; Refractive index; Photonic crystal; Colloid; SPHERES; Stationary phase; Capillary action; Optics; Optoelectronics; Chromatography; Composite material; Chemical engineering; Chemistry; Physics","score_opus":0.010223386860038453,"score_gpt":0.2810464261481448,"score_spread":0.27082303928810636,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2082921415","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8159909,0.005445434,0.00028045216,0.00035207748,0.015248415,0.003153199,0.009963286,0.0005703098,0.14899589],"genre_scores_gemma":[0.6779714,0.011363396,0.015177668,0.0018023705,0.010222831,0.0018796716,0.004386888,0.0012330315,0.27596274],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9914722,0.00039272525,0.0015994458,0.0018011204,0.0021620824,0.002572446],"domain_scores_gemma":[0.996518,0.00016446739,0.00069731765,0.0013935876,0.00045946238,0.00076712825],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.0013536249,0.0013283229,0.0022465708,0.00044789625,0.0004636932,0.0014194226,0.001532323,0.0011512333,0.12273983],"category_scores_gemma":[0.00015449783,0.0012115489,0.0004195761,0.00041328598,0.0006987308,0.0008020677,0.0008864374,0.0005290281,0.04415393],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033621976,0.00018417354,0.0000013041504,0.0006142352,0.0000808568,0.000098766446,0.00004254912,0.00016276643,0.7768103,0.0002851329,0.22097145,0.00041223402],"study_design_scores_gemma":[0.001040759,0.00018569859,0.00007182297,0.0002825338,0.00005975296,0.000073785035,0.000029860807,0.0000019521872,0.5835859,0.00012653445,0.4135816,0.00095980463],"about_ca_topic_score_codex":0.00016139455,"about_ca_topic_score_gemma":0.000030047753,"teacher_disagreement_score":0.19322443,"about_ca_system_score_codex":0.00051035266,"about_ca_system_score_gemma":0.0010624084,"threshold_uncertainty_score":0.9999468},"labels":[],"label_agreement":null},{"id":"W2085528518","doi":"10.1002/adma.200602870","title":"Unique Polymorphism of Oligothiophenes","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Xerox (Canada); McMaster University","funders":"","keywords":"Materials science; Polymorphism (computer science); Nanotechnology; Genetics; Genotype; Biology","score_opus":0.00405881045862733,"score_gpt":0.2064057795450817,"score_spread":0.2023469690864544,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2085528518","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950054,0.00046778945,0.001535012,0.000008229614,0.0005029238,0.00008605244,0.000018048006,0.00013677475,0.0022397519],"genre_scores_gemma":[0.99820226,0.00025095727,0.0013500353,0.000026151087,0.00006094304,0.0000030151477,0.0000048749166,0.00003212072,0.00006965744],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999391,0.0000054718694,0.0002286078,0.00007349459,0.00008389199,0.00021750409],"domain_scores_gemma":[0.99971205,0.00002835262,0.00003455933,0.00015772885,0.000031667572,0.00003562366],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022097294,0.000092654656,0.00016143704,0.000040116814,0.0000147713135,0.0000058809483,0.000085094325,0.00005720309,0.00015849633],"category_scores_gemma":[0.000014332481,0.000093609066,0.00001879014,0.00008439187,0.000015363714,0.000057381298,0.000013465675,0.00003731695,0.000011655669],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000107729875,0.0000053042068,0.0000065263366,0.000042445314,0.0000097771035,0.000002342236,0.000042669453,0.00014378843,0.99398077,0.0051377583,0.000041560103,0.00057628844],"study_design_scores_gemma":[0.00014470726,0.00002685818,0.00014854466,0.000015695408,0.0000045807515,0.0000042069937,0.000007976774,0.0000038335947,0.99187815,0.0032432787,0.004421763,0.000100389436],"about_ca_topic_score_codex":0.000015030707,"about_ca_topic_score_gemma":0.000014179311,"teacher_disagreement_score":0.0043802033,"about_ca_system_score_codex":0.000037717266,"about_ca_system_score_gemma":0.000012474912,"threshold_uncertainty_score":0.3817267},"labels":[],"label_agreement":null},{"id":"W2086397344","doi":"10.1002/adma.200801812","title":"Interfacing Supramolecular Gels and Quantum Dots with Ultrasound: Smart Photoluminescent Dipeptide Gels","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supramolecular Self-Assembly in Materials","field":"Materials Science","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada; Institute for Microstructural Sciences; Steacie Institute for Molecular Sciences","funders":"","keywords":"Materials science; Quantum dot; Interfacing; Supramolecular chemistry; Photoluminescence; Dipeptide; Luminescence; Nanotechnology; Porosity; Nanoparticle; Smart material; Chemical engineering; Peptide; Optoelectronics; Molecule; Organic chemistry; Composite material; Nuclear magnetic resonance; Chemistry","score_opus":0.00823716507992026,"score_gpt":0.2171007073318537,"score_spread":0.20886354225193343,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086397344","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99522847,0.0003177352,0.0011483254,0.00007242024,0.0014310299,0.0010106136,0.00010730474,0.00044406124,0.00024004665],"genre_scores_gemma":[0.98751765,0.00023582164,0.011200712,0.00037515495,0.00015122915,0.00022264465,0.000042838896,0.00015382956,0.000100103716],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99558157,0.00040190812,0.0009654122,0.0011617013,0.00081357773,0.0010758247],"domain_scores_gemma":[0.99771595,0.0002254336,0.0004677791,0.0009976836,0.00029311766,0.00030005994],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00092021667,0.0007109987,0.0010295204,0.00016842573,0.00043311244,0.0003815676,0.00052383885,0.00019427427,0.0009348842],"category_scores_gemma":[0.00045340057,0.00061288965,0.00007572912,0.00022944002,0.00043556077,0.00063975656,0.0003669244,0.00013984453,0.00039349793],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004352315,0.00009566721,0.0003377569,0.0001431802,0.00003776497,0.00035945012,0.00045389688,0.000049654707,0.9975733,0.00032847133,0.000104470295,0.00008114507],"study_design_scores_gemma":[0.0014957626,0.00034672846,0.001431015,0.00023119843,0.000062006606,0.0013539814,0.00017279733,0.0000027477577,0.9921363,0.00051746424,0.0014371637,0.0008128207],"about_ca_topic_score_codex":0.0002663496,"about_ca_topic_score_gemma":0.000023409992,"teacher_disagreement_score":0.010052387,"about_ca_system_score_codex":0.00016630767,"about_ca_system_score_gemma":0.00014071254,"threshold_uncertainty_score":0.9999784},"labels":[],"label_agreement":null},{"id":"W2086466212","doi":"10.1002/1521-4095(200009)12:17<1252::aid-adma1252>3.0.co;2-0","title":"Fabrication of Nanometer-Scale Patterns by Ion-Milling with Porous Anodic Alumina Masks","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Anodic Oxide Films and Nanostructures","field":"Materials Science","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Occupational Cancer Research Centre; University of Toronto","funders":"","keywords":"Materials science; Wetting; Nanometre; Fabrication; Porosity; Aluminium; Anode; Ion milling machine; Nanotechnology; Ion; Contact angle; Composite material; Electrode; Layer (electronics)","score_opus":0.004172476184370882,"score_gpt":0.20707291420570131,"score_spread":0.20290043802133043,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086466212","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974288,0.00018110697,0.0006548489,0.000038827748,0.00034578814,0.00027672583,0.00067140197,0.000082119725,0.00032043539],"genre_scores_gemma":[0.9949529,0.00015339177,0.0039329994,0.00009398278,0.0000817236,0.000035512247,0.00009826289,0.000035488625,0.00061573857],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998386,0.00006554689,0.0004686009,0.00040495637,0.00033737026,0.0003375083],"domain_scores_gemma":[0.9991072,0.00003617481,0.00028063185,0.000391758,0.00010793697,0.00007630458],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00021486137,0.00022122581,0.00039980776,0.00005234792,0.00008480501,0.00005249146,0.00025420863,0.00008465763,0.0061029047],"category_scores_gemma":[0.000020715655,0.00017243765,0.000032767068,0.000119886405,0.00011564424,0.0003204106,0.00003259746,0.000038818747,0.00008086538],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017650766,0.000036353526,0.0003259288,0.00005305465,0.0000061272895,0.0000035060586,0.00016285443,0.00005443687,0.99358076,0.000018008417,0.00018707199,0.005395399],"study_design_scores_gemma":[0.000494734,0.0002702039,0.002059812,0.0000890682,0.000024784156,0.000015987584,0.00006429006,0.0000015411935,0.9941286,0.00021154505,0.002407235,0.00023221213],"about_ca_topic_score_codex":0.00018744498,"about_ca_topic_score_gemma":0.000012736619,"teacher_disagreement_score":0.0060220393,"about_ca_system_score_codex":0.000036877973,"about_ca_system_score_gemma":0.000029933492,"threshold_uncertainty_score":0.99480563},"labels":[],"label_agreement":null},{"id":"W2086475852","doi":"10.1002/adma.200602449","title":"Highly Stabilized Nucleotide‐Capped Small Gold Nanoparticles with Tunable Size","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":111,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Colloidal gold; Materials science; Nanoparticle; Nanotechnology; Nucleotide; Fourier transform; Combinatorial chemistry; Chemical engineering; Chemistry; Physics","score_opus":0.011567217702359849,"score_gpt":0.22856735674335454,"score_spread":0.2170001390409947,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086475852","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974452,0.00006168017,0.00014726675,0.0003218202,0.0002562893,0.0004922367,0.000051682786,0.0002961933,0.00092763116],"genre_scores_gemma":[0.98102385,0.00002500917,0.017837634,0.00022631878,0.0001010337,0.00009487438,0.000004511134,0.000044699762,0.00064205955],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978036,0.00006762501,0.00057453255,0.0005071884,0.00031259283,0.0007344476],"domain_scores_gemma":[0.99851817,0.00035497648,0.000216099,0.0005472423,0.0001574322,0.00020610988],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010407696,0.00026105266,0.000413132,0.0000394409,0.00019732807,0.00017995652,0.0003122644,0.00006638737,0.0010512834],"category_scores_gemma":[0.00016698823,0.00017508042,0.00004757197,0.00021783511,0.00015434345,0.00030372114,0.000077038756,0.00005149329,0.0004763917],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035379117,0.00014545106,0.00011141847,0.000027123633,0.0000071449736,0.000011292098,0.000101122416,0.00004098098,0.99483925,0.003121275,0.00011320786,0.0011279515],"study_design_scores_gemma":[0.00093766564,0.0001214996,0.0014554203,0.000046441477,0.000031083007,0.0000069850735,0.00020184627,0.0000016145501,0.98721313,0.0011638108,0.008512393,0.00030812938],"about_ca_topic_score_codex":0.000086875065,"about_ca_topic_score_gemma":0.00010624254,"teacher_disagreement_score":0.017690368,"about_ca_system_score_codex":0.00006176984,"about_ca_system_score_gemma":0.000056273206,"threshold_uncertainty_score":0.9998619},"labels":[],"label_agreement":null},{"id":"W2086714920","doi":"10.1002/adma.201004405","title":"Epitaxial Patterning of Bi<sub>2</sub>FeCrO<sub>6</sub> Double Perovskite Nanostructures: Multiferroic at Room Temperature","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Institut National de la Recherche Scientifique","funders":"Canada Research Chairs; Polytechnique Montréal","keywords":"Materials science; Multiferroics; Ferroelectricity; Epitaxy; Nanostructure; Pulsed laser deposition; Characterization (materials science); Perovskite (structure); Niobium; Nanotechnology; Doping; Optoelectronics; Thin film; Crystallography; Dielectric; Layer (electronics); Metallurgy","score_opus":0.014756205023310758,"score_gpt":0.22897260163099167,"score_spread":0.2142163966076809,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086714920","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9892994,0.00040547983,0.000052110998,0.000036326055,0.0075041694,0.0012569162,0.0009261902,0.0003510738,0.00016833706],"genre_scores_gemma":[0.9964615,0.00055463566,0.0016541223,0.00016524048,0.00047214673,0.00018130332,0.00022072163,0.00021112336,0.00007916796],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99424493,0.0003707521,0.0018236126,0.0013792582,0.00085894566,0.0013225123],"domain_scores_gemma":[0.99652606,0.00012451346,0.0012721316,0.0012329009,0.00047383417,0.0003705501],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011237621,0.00097256457,0.0015366304,0.00029832256,0.00053654035,0.00023026964,0.00087672484,0.00079269527,0.0013362424],"category_scores_gemma":[0.00020918221,0.0008171915,0.00026494483,0.00028882537,0.00033601135,0.00079052936,0.0006555898,0.00028121079,0.000682297],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001721923,0.00014808087,0.0000967123,0.0004275375,0.00006867312,0.00007964099,0.0014948581,0.0001961829,0.9947796,0.00018407227,0.00023917123,0.00056354847],"study_design_scores_gemma":[0.003159452,0.00025324544,0.0019461402,0.0004526218,0.000114850714,0.00008243835,0.00011442372,0.0000058333903,0.99197376,0.0005798734,0.00033381718,0.0009835543],"about_ca_topic_score_codex":0.00015406124,"about_ca_topic_score_gemma":0.00008634242,"teacher_disagreement_score":0.007162142,"about_ca_system_score_codex":0.00022306353,"about_ca_system_score_gemma":0.00014212026,"threshold_uncertainty_score":0.9995767},"labels":[],"label_agreement":null},{"id":"W2086899841","doi":"10.1002/adma.201304098","title":"An Integrated Microrobotic Platform for On‐Demand, Targeted Therapeutic Interventions","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Micro and Nano Robotics","field":"Physics and Astronomy","cited_by":318,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Particle Physics","funders":"National Institutes of Health; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung","keywords":"On demand; Nanotechnology; Folding (DSP implementation); Computer science; Drug delivery; Service (business); Materials science; Multimedia; Engineering; Mechanical engineering; Business","score_opus":0.02149572225233575,"score_gpt":0.29405377159249135,"score_spread":0.2725580493401556,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086899841","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.77297354,0.00010080698,0.22302641,0.0001156896,0.0010780934,0.0016845394,0.0004133031,0.00012409598,0.00048353703],"genre_scores_gemma":[0.98927563,0.000004125472,0.009030528,0.0001317008,0.0001450374,0.0002813273,0.00047879663,0.00003794432,0.00061492727],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99897444,0.000030957042,0.00036400286,0.00024685275,0.00006978692,0.00031397422],"domain_scores_gemma":[0.9992893,0.000054684777,0.00014433848,0.00028612636,0.00014790572,0.00007768561],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012535056,0.0002041273,0.00028883226,0.000059121914,0.0001250996,0.00011486124,0.00018636885,0.00004665677,0.0037967472],"category_scores_gemma":[0.0000072001903,0.00016544371,0.00012731424,0.00007210271,0.00003227006,0.00031085496,0.000018914376,0.000056283614,0.0002323208],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000058923593,0.00023245822,0.00005096114,0.000037528447,0.00007579876,1.6880607e-7,0.00007020445,0.000972493,0.9736384,0.010906375,0.0005740799,0.013382611],"study_design_scores_gemma":[0.0013748974,0.00041727533,0.00043644078,0.00012838833,0.00005941854,6.3155096e-7,0.00028022693,0.00016738474,0.96444887,0.028949397,0.0033931055,0.00034393888],"about_ca_topic_score_codex":0.000060554266,"about_ca_topic_score_gemma":0.0000031499178,"teacher_disagreement_score":0.21630208,"about_ca_system_score_codex":0.00003067984,"about_ca_system_score_gemma":0.00002679445,"threshold_uncertainty_score":0.99711394},"labels":[],"label_agreement":null},{"id":"W2087618509","doi":"10.1002/adma.200702582","title":"Nonlinear Optical Properties of Schiff‐Base‐Containing Conductive Polymer Films Electro‐deposited in Microgravity","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Schiff base; Materials science; Nonlinear optical; Alkoxy group; Copper; Polymer; Base (topology); Electrical conductor; Nonlinear system; Polymer chemistry; Chemical engineering; Nanotechnology; Organic chemistry; Composite material; Metallurgy; Chemistry; Physics","score_opus":0.029764308657525745,"score_gpt":0.26577600357138087,"score_spread":0.23601169491385512,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2087618509","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985632,0.000466446,0.000054165608,0.0001033073,0.0002328036,0.0003505011,0.000064408596,0.00007683926,0.000088384186],"genre_scores_gemma":[0.9866209,0.0000311617,0.012980148,0.00006489837,0.000061007606,0.000100785255,0.000014747167,0.000026447236,0.00009988248],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983856,0.00008125588,0.0005299722,0.00039466194,0.00020917488,0.00039929835],"domain_scores_gemma":[0.99923104,0.000048160196,0.0002105348,0.00031485414,0.0001260228,0.00006935944],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002673829,0.00019534775,0.00044971044,0.00009246929,0.00014452875,0.000029468087,0.00019006572,0.00007932244,0.00023582831],"category_scores_gemma":[0.00009686213,0.00017152874,0.000046772795,0.00021447598,0.00030188792,0.00024848504,0.000084976404,0.00008870501,0.000035812336],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019349341,0.0001343537,0.00013637115,0.000025956246,0.000007116382,0.000007536729,0.00034798833,0.000010529139,0.9987477,0.00022995971,0.0000114669865,0.00014754085],"study_design_scores_gemma":[0.000559476,0.00014309486,0.0004995906,0.00007400918,0.000012395343,0.000050257466,0.00020541382,0.0000064121195,0.9981845,0.00003437284,0.000028320568,0.00020217671],"about_ca_topic_score_codex":0.00041608058,"about_ca_topic_score_gemma":0.000018109962,"teacher_disagreement_score":0.0129259825,"about_ca_system_score_codex":0.000039553554,"about_ca_system_score_gemma":0.00010827056,"threshold_uncertainty_score":0.69947386},"labels":[],"label_agreement":null},{"id":"W2087966217","doi":"10.1002/adma.201202942","title":"All‐Inorganic Colloidal Quantum Dot Photovoltaics Employing Solution‐Phase Halide Passivation","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":222,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"King Abdullah University of Science and Technology","keywords":"Passivation; Quantum dot; Photovoltaics; Materials science; Photocurrent; Colloid; Halide; Phase (matter); Optoelectronics; Nanotechnology; Photovoltaic system; Inorganic chemistry; Physics; Chemistry; Physical chemistry; Electrical engineering; Quantum mechanics","score_opus":0.04055445268461916,"score_gpt":0.295214997680225,"score_spread":0.25466054499560586,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2087966217","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99424386,0.000558469,0.0009817776,0.00024396776,0.0029449514,0.00042317406,0.00013647675,0.0002957229,0.00017162146],"genre_scores_gemma":[0.9959319,0.00013693748,0.002552665,0.000414419,0.00050711096,0.00014441293,0.000041886557,0.000068543784,0.00020210935],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99732167,0.0002440377,0.0007076921,0.00038961682,0.00047044494,0.0008665413],"domain_scores_gemma":[0.9986704,0.0001416201,0.00036930325,0.00046704296,0.00016189268,0.00018974948],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0013172339,0.0003270734,0.00048279265,0.00008722908,0.0003647375,0.00023507078,0.00030807254,0.00013479873,0.002716274],"category_scores_gemma":[0.0004965702,0.00027550405,0.0000667612,0.00013858944,0.0001161238,0.0013358657,0.00013879991,0.000072442774,0.0010425963],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020674773,0.00016850198,0.000059298538,0.00006366951,0.000012687403,0.0000031253553,0.0003925334,0.000010547286,0.9954582,0.0022524402,0.00086636806,0.00050588173],"study_design_scores_gemma":[0.0007614249,0.00009568295,0.00032027843,0.0000639395,0.000040447914,0.000022341394,0.00013623234,0.000017123166,0.9733361,0.0007485949,0.024059953,0.00039785996],"about_ca_topic_score_codex":0.00018901547,"about_ca_topic_score_gemma":0.000010058726,"teacher_disagreement_score":0.023193585,"about_ca_system_score_codex":0.00017484797,"about_ca_system_score_gemma":0.00007022442,"threshold_uncertainty_score":0.9999697},"labels":[],"label_agreement":null},{"id":"W2088410504","doi":"10.1002/adma.200501043","title":"Biofunctionalized pH‐Responsive Microgels for Cancer Cell Targeting: Rational Design","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoparticle-Based Drug Delivery","field":"Materials Science","cited_by":228,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"HeLa; Endocytosis; Materials science; Doxorubicin; Rational design; Drug delivery; Cancer cell; Cytotoxicity; Intracellular; Receptor-mediated endocytosis; Biophysics; Nanotechnology; Targeted drug delivery; Cell; Cell biology; Cancer; Chemistry; Biochemistry; Biology; In vitro; Chemotherapy","score_opus":0.018827822713347656,"score_gpt":0.2721417029293641,"score_spread":0.2533138802160165,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2088410504","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97220427,0.0014961065,0.021612588,0.0007781546,0.0016884035,0.0012212348,0.00074248796,0.00020376811,0.000052995172],"genre_scores_gemma":[0.82265353,0.00014369166,0.17238443,0.001353607,0.000868731,0.0012690884,0.000078915495,0.00007179674,0.0011762109],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977578,0.00022051613,0.0006052675,0.0005316063,0.00035107322,0.00053373154],"domain_scores_gemma":[0.99829376,0.0005233052,0.00031147292,0.0002605892,0.0004911786,0.000119681354],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010521929,0.00026641192,0.00037221357,0.00005662823,0.0002463823,0.00012409518,0.00023959589,0.00009230759,0.006442746],"category_scores_gemma":[0.00031497664,0.00025156155,0.00007830965,0.00009782277,0.00008882169,0.0007391432,0.00005858313,0.00003477116,0.00056756],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016756506,0.00010859759,0.0000031739,0.00003596129,0.000009673494,0.0000018823141,0.00008684372,0.007193693,0.9848814,0.00028303725,0.005255817,0.00046424894],"study_design_scores_gemma":[0.0020125634,0.00009658585,0.000011850141,0.000026584372,0.000033505486,0.0000028322006,0.000043325184,0.00008957075,0.95472234,0.000764902,0.041887745,0.0003082016],"about_ca_topic_score_codex":0.000036478013,"about_ca_topic_score_gemma":0.000013432658,"teacher_disagreement_score":0.15077183,"about_ca_system_score_codex":0.00031168057,"about_ca_system_score_gemma":0.00030787,"threshold_uncertainty_score":0.9999937},"labels":[],"label_agreement":null},{"id":"W2089640551","doi":"10.1002/adma.201104832","title":"Ordered Nanopillar Structured Electrodes for Depleted Bulk Heterojunction Colloidal Quantum Dot Solar Cells","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Nanopillar; Materials science; Quantum dot; Heterojunction; Nanotechnology; Optoelectronics; Electrode; Colloid; Polymer solar cell; Energy conversion efficiency; Nanostructure; Chemical engineering","score_opus":0.016015032941241125,"score_gpt":0.2409044500019449,"score_spread":0.22488941706070378,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2089640551","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99151915,0.0007268726,0.0012377084,0.00008125639,0.0048905825,0.0009346931,0.00030322262,0.0002492357,0.000057302703],"genre_scores_gemma":[0.99131274,0.0001572152,0.0072383094,0.00018446642,0.00054257736,0.00028692445,0.000050453556,0.00008679115,0.00014054756],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99732274,0.0002159008,0.0006240441,0.00048060447,0.00035929473,0.0009974316],"domain_scores_gemma":[0.99869347,0.00014997965,0.00033337664,0.000454655,0.00021491644,0.00015360133],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0009037163,0.0003913103,0.00061217084,0.0000947361,0.00039502705,0.00022081641,0.0002977851,0.00018052295,0.000958037],"category_scores_gemma":[0.00027070427,0.00030936892,0.00010112704,0.00012201224,0.000097805474,0.00075918203,0.000072335206,0.000057318404,0.00017490458],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007429738,0.000058272075,0.000013010767,0.00013452978,0.000020282114,5.6823455e-7,0.00017267377,0.00004024764,0.99685377,0.00075835123,0.0005257549,0.00067954685],"study_design_scores_gemma":[0.0007476968,0.00025695513,0.00010514437,0.00003584705,0.000046866382,0.000011241025,0.00006986582,0.000013882454,0.9591099,0.0013810457,0.037786186,0.00043538524],"about_ca_topic_score_codex":0.000056142133,"about_ca_topic_score_gemma":0.000016589622,"teacher_disagreement_score":0.037743904,"about_ca_system_score_codex":0.000108341126,"about_ca_system_score_gemma":0.000060668026,"threshold_uncertainty_score":0.99995524},"labels":[],"label_agreement":null},{"id":"W2092069660","doi":"10.1002/adma.200401197","title":"Efficient Infrared‐Emitting PbS Quantum Dots Grown on DNA and Stable in Aqueous Solution and Blood Plasma","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":122,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto","funders":"","keywords":"Quantum dot; Materials science; Aqueous solution; Photoluminescence; Nanocrystal; Plasma; Nanoparticle; Infrared; DNA; Nanotechnology; Luminescence; Optoelectronics; Photochemistry; Optics; Physical chemistry; Chemistry; Physics","score_opus":0.011767719288597165,"score_gpt":0.22242505625491418,"score_spread":0.21065733696631703,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2092069660","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99757063,0.0009481796,0.000016822645,0.00017760799,0.0003915063,0.00029806266,0.000045609442,0.000088642286,0.0004629579],"genre_scores_gemma":[0.99768865,0.00026321752,0.0016292094,0.00010624832,0.00011850225,0.000049715185,0.0000033122308,0.000027053446,0.00011409904],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982107,0.00014343315,0.00047739636,0.00046383633,0.000240374,0.0004642118],"domain_scores_gemma":[0.9993253,0.00015261861,0.000172855,0.00022520771,0.000041498686,0.00008253518],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008928398,0.00023294936,0.00037779048,0.00010059406,0.00019186897,0.00017973759,0.00011534463,0.00009279045,0.0002320521],"category_scores_gemma":[0.00027055657,0.00018994781,0.00001724819,0.00007220266,0.00011383509,0.00024257306,0.000115119066,0.00006338255,0.00006547935],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020048396,0.00008365437,0.000028579107,0.00007581248,0.0000035054818,0.000009481936,0.00044676047,0.00085100986,0.99250716,0.0009574438,0.000025190502,0.0048108953],"study_design_scores_gemma":[0.0007789918,0.0001742954,0.00047946893,0.00022637327,0.000013845379,0.00003017638,0.00011041742,0.0011265934,0.9948862,0.0005481468,0.0013580836,0.00026738114],"about_ca_topic_score_codex":0.00008515838,"about_ca_topic_score_gemma":0.00002944406,"teacher_disagreement_score":0.0045435145,"about_ca_system_score_codex":0.000054158005,"about_ca_system_score_gemma":0.00002702932,"threshold_uncertainty_score":0.7745847},"labels":[],"label_agreement":null},{"id":"W2093152027","doi":"10.1002/1521-4095(20021203)14:23<1756::aid-adma1756>3.0.co;2-e","title":"A New Approach to Hybrid Polymer–Metal and Polymer–Semiconductor Particles","year":2002,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Polymer; Nanoparticle; Semiconductor; Nanotechnology; Colloid; Metal; Surface charge; Nanometre; Chemical engineering; Optoelectronics; Composite material; Physical chemistry; Metallurgy","score_opus":0.035503521393882166,"score_gpt":0.2361429157589782,"score_spread":0.20063939436509604,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2093152027","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99257815,0.0036954,0.00011945567,0.00034546672,0.0005502902,0.00027312076,0.000081832804,0.00014504889,0.0022112145],"genre_scores_gemma":[0.99075574,0.00013363746,0.004614559,0.00039312366,0.000229821,0.00006343478,0.0000030983354,0.0000411458,0.0037654343],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99819064,0.00011427418,0.00039396153,0.0005367199,0.0002666799,0.00049771264],"domain_scores_gemma":[0.99913144,0.00005713127,0.000111215006,0.00039616585,0.000030668412,0.00027336506],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0003009621,0.00025658187,0.00042709569,0.000066350054,0.00015004785,0.00022621555,0.00025275978,0.00004578152,0.0056011924],"category_scores_gemma":[0.00012480696,0.000202036,0.000038338796,0.00008548302,0.00008538269,0.00039733137,0.00013956327,0.00003692421,0.0010359271],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000071725415,0.00004599955,0.0000049357423,0.00002862161,0.0000076130873,0.0000029897546,0.0003314564,0.000002578552,0.9846322,0.0012161558,0.0013209025,0.012334819],"study_design_scores_gemma":[0.00032498996,0.000075436954,0.000045816298,0.0000307049,0.000021136282,0.000044014836,0.00009290641,0.0000102876775,0.99346244,0.00023976639,0.005346648,0.00030587526],"about_ca_topic_score_codex":0.0001356028,"about_ca_topic_score_gemma":0.000002336158,"teacher_disagreement_score":0.012028944,"about_ca_system_score_codex":0.000023613795,"about_ca_system_score_gemma":0.000016538695,"threshold_uncertainty_score":0.99974185},"labels":[],"label_agreement":null},{"id":"W2093879263","doi":"10.1002/adma.201402535","title":"Exciton‐Stimulated Molecular Transformation in Organic Light‐Emitting Diodes","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; University of Toronto","funders":"","keywords":"OLED; Materials science; Exciton; Optoelectronics; Diode; Electrochromism; Transformation (genetics); Nanotechnology; Electrode","score_opus":0.00409079456838768,"score_gpt":0.22141651793076458,"score_spread":0.2173257233623769,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2093879263","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99038315,0.00010895385,0.006009084,0.00009140795,0.00042516104,0.00031918474,0.000007367479,0.0004622907,0.00219339],"genre_scores_gemma":[0.9978241,0.000050333103,0.0018191027,0.00003741659,0.00008627233,0.000032632142,0.00002558774,0.00009101871,0.00003354278],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99835885,0.000090086236,0.0005255804,0.00023803645,0.00029530193,0.00049215485],"domain_scores_gemma":[0.9994143,0.000080166334,0.00004688197,0.00031595043,0.00006257039,0.000080122685],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00060173235,0.00022563213,0.00034029357,0.00016524768,0.00004717195,0.000081813145,0.00023128798,0.0001348103,0.00036561638],"category_scores_gemma":[0.00027457884,0.00022977375,0.00003309817,0.00033863206,0.000018084478,0.0003870233,0.00003484893,0.0001458701,0.0001951914],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012007221,0.00001144941,0.000019195559,0.0001812705,0.00001318312,0.000006067962,0.00041598492,0.0021669196,0.9955744,0.00022340841,0.000012025827,0.0013640742],"study_design_scores_gemma":[0.0006067304,0.00003113318,0.00013523526,0.00011545676,0.000006727573,0.0000052025493,0.000036053007,0.0032142745,0.9936963,0.00026965723,0.0016246688,0.00025858433],"about_ca_topic_score_codex":0.000007791099,"about_ca_topic_score_gemma":0.000004883162,"teacher_disagreement_score":0.0074409335,"about_ca_system_score_codex":0.00017448081,"about_ca_system_score_gemma":0.000015793314,"threshold_uncertainty_score":0.9369902},"labels":[],"label_agreement":null},{"id":"W2095024133","doi":"10.1002/adma.201002313","title":"A High Mobility P‐Type DPP‐Thieno[3,2‐<i>b</i>]thiophene Copolymer for Organic Thin‐Film Transistors","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":542,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Institute of Materials Research and Engineering","keywords":"Thiophene; Materials science; Copolymer; Stacking; Electron mobility; Lamellar structure; Organic semiconductor; Pyrrole; Acceptor; Polymer chemistry; Polymer; Intermolecular force; Transistor; Thin-film transistor; Thin film; Crystallography; Nanotechnology; Organic chemistry; Molecule; Optoelectronics; Layer (electronics); Chemistry; Voltage; Condensed matter physics","score_opus":0.004102527498724861,"score_gpt":0.20245993143538582,"score_spread":0.19835740393666096,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095024133","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9928904,0.0003008934,0.0005176856,0.000054742446,0.00484375,0.0005865548,0.00017652853,0.00045750267,0.0001719192],"genre_scores_gemma":[0.9964276,0.00017179301,0.002545554,0.00014290937,0.00027495017,0.00008063221,0.00006307611,0.00013036998,0.0001631186],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985571,0.000019084511,0.00040175422,0.00032541875,0.00017212261,0.0005245465],"domain_scores_gemma":[0.99910986,0.00008088346,0.00006102072,0.0004966639,0.00013425824,0.000117302094],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00033973894,0.00029309018,0.00041953297,0.000049445254,0.00011889416,0.000052447,0.000251476,0.00021754358,0.0014612392],"category_scores_gemma":[0.00010357061,0.00029204847,0.000066012595,0.0002004877,0.000050556013,0.00016887294,0.000021990236,0.00022378046,0.000057679747],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000068385285,0.000037019774,0.0000030077802,0.000120994286,0.00003399613,0.0000011161356,0.00013942822,0.0003753828,0.9969966,0.0017324601,0.0003570008,0.00013461715],"study_design_scores_gemma":[0.00065912376,0.00012293838,0.000050045655,0.000010731446,0.000037545222,0.000006123747,0.000012529988,0.0000674653,0.97680575,0.0036884104,0.0181978,0.00034152585],"about_ca_topic_score_codex":0.000030702784,"about_ca_topic_score_gemma":0.00019107288,"teacher_disagreement_score":0.020190831,"about_ca_system_score_codex":0.00009315192,"about_ca_system_score_gemma":0.000079004436,"threshold_uncertainty_score":0.99995315},"labels":[],"label_agreement":null},{"id":"W2098651565","doi":"10.1002/adma.200700564","title":"Enhanced Photoconductivity in Thin‐Film Semiconductors Optically Coupled to Photonic Crystals","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photoconductivity; Materials science; Optoelectronics; Semiconductor; Photonic crystal; Layer (electronics); Thin film; Photonics; Crystal (programming language); Optics; Nanotechnology; Physics","score_opus":0.010059725873171122,"score_gpt":0.2851589749763851,"score_spread":0.275099249103214,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098651565","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98279196,0.000014384011,0.009687523,0.000067881825,0.00026272508,0.0017491536,0.00013655986,0.000074325544,0.0052154684],"genre_scores_gemma":[0.9957003,0.0000035150613,0.003068931,0.00009853313,0.00012281853,0.0006595225,0.00003983255,0.000040692263,0.0002658766],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99796873,0.000033188193,0.0006053231,0.00053241354,0.00022305558,0.0006372601],"domain_scores_gemma":[0.9988925,0.00013148903,0.00017107828,0.00049930543,0.00010618365,0.00019943128],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007405989,0.0002806593,0.0004754896,0.00010563707,0.00009894278,0.00006891812,0.00027372187,0.0000671819,0.002120614],"category_scores_gemma":[0.000036869307,0.00027684803,0.0000718185,0.00032593156,0.000056321354,0.00027349166,0.00008637218,0.00013189258,0.00009946507],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008336969,0.00015489686,0.000039507442,0.000011820231,0.000016204904,0.0000016759069,0.0002555457,0.00047672947,0.99437445,0.004183043,0.000021579837,0.00038117057],"study_design_scores_gemma":[0.0007867984,0.000044213648,0.00062387733,0.00004442786,0.000009451112,9.666844e-7,0.0005089974,0.000018773126,0.99095005,0.0040750564,0.0026046275,0.00033275934],"about_ca_topic_score_codex":0.00029455672,"about_ca_topic_score_gemma":0.00006956713,"teacher_disagreement_score":0.012908299,"about_ca_system_score_codex":0.0001220947,"about_ca_system_score_gemma":0.00009718801,"threshold_uncertainty_score":0.99996835},"labels":[],"label_agreement":null},{"id":"W2100555724","doi":"10.1002/adma.200502134","title":"Supramolecular Electronic Coupling in Chiral Oligothiophene Nanostructures","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Regroupement Québécois sur les Matériaux de Pointe","funders":"","keywords":"Supramolecular chemistry; Thermotropic crystal; Materials science; Coupling (piping); Nanostructure; Chemical physics; Nanotechnology; Electronic structure; Supramolecular assembly; Spectroscopy; Optoelectronics; Crystallography; Computational chemistry; Liquid crystal; Crystal structure; Liquid crystalline; Chemistry; Physics","score_opus":0.0017703770399066607,"score_gpt":0.18110490370121635,"score_spread":0.1793345266613097,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100555724","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969973,0.0014888983,0.00018044631,0.000011692921,0.00037744892,0.00016819772,0.0000149605885,0.00019474546,0.0005663152],"genre_scores_gemma":[0.9991486,0.00024447867,0.00028909498,0.000030048512,0.00011255283,0.000021236481,0.000035743928,0.00006441016,0.00005380628],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988383,0.000008745806,0.00028161707,0.00017833857,0.00012707706,0.00056593906],"domain_scores_gemma":[0.99972105,0.000014223087,0.0000313282,0.00018809967,0.000019185616,0.000026084517],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012133659,0.00018588803,0.00023127641,0.000063703286,0.00003316316,0.000040225957,0.00012574853,0.000090469635,0.00011479308],"category_scores_gemma":[0.000011354995,0.00019759878,0.000027009399,0.00014815773,0.000013821464,0.000092504284,0.000018727398,0.00012552399,0.00001531144],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000010344376,0.000006645123,0.000023905526,0.000028144312,0.0000065106324,0.000006918965,0.000009047074,0.05936743,0.93264365,0.007820654,0.00003817799,0.00003858066],"study_design_scores_gemma":[0.00039329196,0.0000320563,0.00029096997,0.000016285518,0.0000054508037,0.000006695595,0.000003037432,0.00048985414,0.9717237,0.024112627,0.0027054402,0.00022061479],"about_ca_topic_score_codex":0.00006256758,"about_ca_topic_score_gemma":0.00013992208,"teacher_disagreement_score":0.058877576,"about_ca_system_score_codex":0.00018249577,"about_ca_system_score_gemma":0.00003525961,"threshold_uncertainty_score":0.80578446},"labels":[],"label_agreement":null},{"id":"W2101610036","doi":"10.1002/adma.201305583","title":"Inverted Colloidal Quantum Dot Solar Cells","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto","funders":"","keywords":"Quantum dot; Materials science; Nanotechnology; Optoelectronics; Absorption (acoustics); Diode; Constructive; Layer (electronics); Computer science","score_opus":0.014217028571902433,"score_gpt":0.2259906050856308,"score_spread":0.21177357651372836,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2101610036","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947116,0.00010391851,0.00046355883,0.0001677142,0.0026593055,0.00027543548,0.0000735641,0.0002609923,0.0012839098],"genre_scores_gemma":[0.9961123,0.00010623936,0.002466176,0.00051226735,0.0002441409,0.00006654477,0.000008671284,0.00005112132,0.00043253967],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99776053,0.00031960406,0.0005229077,0.00047687438,0.00038114452,0.00053892564],"domain_scores_gemma":[0.9988426,0.00015335437,0.00021681265,0.00053130946,0.00012827087,0.00012764568],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0011713752,0.0002813524,0.0005169634,0.000071791255,0.00023105464,0.0002271063,0.0004109272,0.000112590555,0.0033953267],"category_scores_gemma":[0.00028771127,0.00021986593,0.000059860507,0.00010270525,0.00014219001,0.00042000436,0.00012462608,0.000056887,0.002582462],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013121066,0.000038494087,0.0000058840305,0.000059983362,0.0000052499986,0.0000023182888,0.00011020918,0.00004630879,0.99478024,0.0021153828,0.0011955324,0.0015092065],"study_design_scores_gemma":[0.00040556086,0.00012873429,0.00007651399,0.00005232247,0.00001539577,0.0000045892552,0.000038084305,0.000048661845,0.9301589,0.0024261996,0.06632065,0.00032435238],"about_ca_topic_score_codex":0.000118887205,"about_ca_topic_score_gemma":0.000013379561,"teacher_disagreement_score":0.065125115,"about_ca_system_score_codex":0.00004653349,"about_ca_system_score_gemma":0.00004545711,"threshold_uncertainty_score":0.99819416},"labels":[],"label_agreement":null},{"id":"W2102241594","doi":"10.1002/adma.201300881","title":"Controlling the Interaction of Light with Polymer Semiconductors","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Regroupement Québécois sur les Matériaux de Pointe; Université de Montréal","funders":"Engineering and Physical Sciences Research Council","keywords":"Materials science; Polymer; Semiconductor; Conjugated system; Solid-state; Nanotechnology; Absorption (acoustics); Optoelectronics; Engineering physics; Composite material","score_opus":0.0040644123888320975,"score_gpt":0.19327051998572464,"score_spread":0.18920610759689255,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2102241594","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99844116,0.00034834468,0.00009546923,0.00005839108,0.00036115074,0.00017276627,0.0000049346527,0.00005541055,0.00046239494],"genre_scores_gemma":[0.9996558,0.00007907799,0.00006286106,0.000030283014,0.00005025228,0.000026837175,0.0000026813536,0.000023657778,0.00006854371],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99957705,0.000010160888,0.00015096118,0.00006254634,0.000066370594,0.0001329408],"domain_scores_gemma":[0.9997311,0.000030790387,0.000045522673,0.00013489109,0.00004049785,0.000017194672],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000543583,0.00008256372,0.00013200636,0.000017016084,0.0000221201,0.000022257604,0.00006827429,0.000026096921,0.00035925602],"category_scores_gemma":[0.000006703472,0.00005053423,0.000013255328,0.00004980458,0.000011159533,0.00014784024,0.0000073022597,0.00004781074,0.00002034873],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000092281225,0.0000030724273,0.0000043719588,0.000015680334,0.00002474248,1.4110353e-7,0.000080135396,0.0005975176,0.9987177,0.00036057137,0.000084695275,0.00010213841],"study_design_scores_gemma":[0.00018868818,0.00003365547,0.000011816355,0.000021274362,0.000009754386,0.0000035257292,0.00005942629,0.00005058251,0.9979522,0.00033792807,0.0012628869,0.00006823508],"about_ca_topic_score_codex":0.000040287774,"about_ca_topic_score_gemma":0.0000069928446,"teacher_disagreement_score":0.0012146678,"about_ca_system_score_codex":0.000024483692,"about_ca_system_score_gemma":0.000007822453,"threshold_uncertainty_score":0.39336017},"labels":[],"label_agreement":null},{"id":"W2102604498","doi":"10.1002/adma.200390015","title":"Preparation of Large‐Area 3D Ordered Macroporous Titania Films by Silica Colloidal Crystal Templating","year":2003,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mesoporous Materials and Catalysis","field":"Materials Science","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Mount Allison University; Université de Moncton","funders":"","keywords":"Materials science; Colloidal crystal; Polystyrene; Colloid; Template; Shrinkage; SPHERES; Chemical engineering; Nanotechnology; Template method pattern; Composite material; Polymer","score_opus":0.007332750595632238,"score_gpt":0.2712275336449978,"score_spread":0.26389478304936553,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2102604498","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9938389,0.00018256482,0.0008657926,0.000013886293,0.0008550286,0.0005403636,0.0013520782,0.00014072527,0.0022106713],"genre_scores_gemma":[0.9866375,0.000031243824,0.012089164,0.00006730492,0.000042468633,0.000105538886,0.0002643207,0.00005227168,0.00071023393],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997079,0.0002533825,0.001015248,0.0005804978,0.00050615816,0.0005656953],"domain_scores_gemma":[0.9983041,0.00008286082,0.000697548,0.0005638916,0.00023981738,0.00011175977],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011278004,0.00033004186,0.00072019454,0.000059971855,0.00023338036,0.00015021532,0.00026907984,0.00015040053,0.011173137],"category_scores_gemma":[0.00045953682,0.0003039503,0.000067651454,0.00019260983,0.000090249065,0.00045563554,0.000087147586,0.000043597604,0.00014345747],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018941615,0.00012582475,0.000022463326,0.0001128812,0.000016811131,0.000005230742,0.00021214533,0.000102761944,0.99663794,0.0007712037,0.001755261,0.00004805163],"study_design_scores_gemma":[0.0008852001,0.00021956295,0.000017756303,0.00004276251,0.000041202187,0.000021357182,0.00022197113,0.00000854195,0.99050415,0.0004302684,0.0072739846,0.0003332265],"about_ca_topic_score_codex":0.0000901589,"about_ca_topic_score_gemma":0.000032987344,"teacher_disagreement_score":0.011223372,"about_ca_system_score_codex":0.00006504579,"about_ca_system_score_gemma":0.000099747565,"threshold_uncertainty_score":0.9999413},"labels":[],"label_agreement":null},{"id":"W2104124155","doi":"10.1002/adma.200902192","title":"Ultraviolet‐Assisted Direct‐Write Fabrication of Carbon Nanotube/Polymer Nanocomposite Microcoils","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanofabrication and Lithography Techniques","field":"Engineering","cited_by":209,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal; Institut National de la Recherche Scientifique","funders":"Natural Sciences and Engineering Research Council of Canada; Fonds Québécois de la Recherche sur la Nature et les Technologies; Université Laval","keywords":"Materials science; Carbon nanotube; Nanocomposite; Fabrication; Ultraviolet; Nanotechnology; Polymer; Extrusion; UV curing; Protein filament; Curing (chemistry); Fused filament fabrication; Rigidity (electromagnetism); Nanotube; Composite material; Optoelectronics","score_opus":0.004998481772760706,"score_gpt":0.22299565265478843,"score_spread":0.21799717088202772,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104124155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9835528,0.0016988761,0.001384559,0.000059219044,0.00036021147,0.00050489034,0.000073077426,0.0010971058,0.011269266],"genre_scores_gemma":[0.99362135,0.00033536457,0.0056618755,0.00009560338,0.00004811894,0.000058599035,0.000044655288,0.000029031555,0.00010540877],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989191,0.000038933493,0.00046040973,0.0002047234,0.00015278421,0.00022400665],"domain_scores_gemma":[0.99933285,0.000024726998,0.00012385212,0.0003443156,0.000119290664,0.000054995213],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001277413,0.00019695764,0.0003351164,0.0001749922,0.00003101741,0.000023622131,0.00016267515,0.000094757735,0.000034010696],"category_scores_gemma":[0.000013144141,0.00019970832,0.00006698543,0.00031417568,0.00003296145,0.00013056461,0.000008571105,0.000043868928,0.000004638944],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020444246,0.00003810574,0.000035944577,0.000041055337,0.000014648662,6.948325e-7,0.00006357159,0.00001938764,0.98230225,0.00028996868,0.00012719359,0.017046716],"study_design_scores_gemma":[0.00024141009,0.000049676582,0.0075774607,0.00008155021,0.000019803823,0.0000040015534,0.000007672516,0.0000077729455,0.9868994,0.00015222354,0.0047399406,0.00021911545],"about_ca_topic_score_codex":0.00002136091,"about_ca_topic_score_gemma":8.1939066e-7,"teacher_disagreement_score":0.0168276,"about_ca_system_score_codex":0.00004083553,"about_ca_system_score_gemma":0.000008777143,"threshold_uncertainty_score":0.81438684},"labels":[],"label_agreement":null},{"id":"W2105212587","doi":"10.1002/adma.200890081","title":"Cover Picture: High‐Speed Color‐Switching Silicon LEDs (Adv. Mater. 20/2008)","year":2008,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Semiconductor Lasers and Optical Devices","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Optoelectronics; Cover (algebra); Silicon; Infrared; Light-emitting diode; Optics; Physics","score_opus":0.008778185824629194,"score_gpt":0.22848232239694158,"score_spread":0.2197041365723124,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105212587","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93590504,0.0042356765,0.00016210187,0.000053226544,0.024342095,0.0009070476,0.0014385348,0.00066259596,0.032293666],"genre_scores_gemma":[0.9014053,0.012391224,0.002099264,0.0011018524,0.0036707425,0.00020209633,0.0031615766,0.00085773127,0.07511024],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968427,0.00007375641,0.0009658304,0.000721322,0.00047594882,0.0009204321],"domain_scores_gemma":[0.99850386,0.00014574944,0.0002541553,0.00072151225,0.00013572376,0.00023898904],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00015130945,0.0009845195,0.0015259117,0.0001863648,0.00015222993,0.0002410329,0.00054327864,0.0008405584,0.014684145],"category_scores_gemma":[0.000053992968,0.000909014,0.00016465285,0.0001914878,0.000081783204,0.00047666024,0.00012926821,0.00043810983,0.013836858],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007991412,0.000022566303,7.6674826e-7,0.0006305188,0.00014828343,0.000055086177,0.000077222656,0.020011028,0.8412027,0.00006148441,0.13750808,0.00020240658],"study_design_scores_gemma":[0.0008252124,0.00006984274,0.000026126147,0.00032212576,0.00007082619,0.00003167428,0.000020805726,0.000107193555,0.6365525,0.000091861315,0.36084822,0.001033572],"about_ca_topic_score_codex":0.00006305987,"about_ca_topic_score_gemma":0.0000076110696,"teacher_disagreement_score":0.22334015,"about_ca_system_score_codex":0.00028716977,"about_ca_system_score_gemma":0.0000658199,"threshold_uncertainty_score":0.99933606},"labels":[],"label_agreement":null},{"id":"W2105993623","doi":"10.1002/adma.200305742","title":"Aligned Gold Nanorods in Silica Made by Ion Irradiation of Core–Shell Colloidal Particles","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nonlinear Optical Materials Studies","field":"Engineering","cited_by":143,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Science; Natural Sciences and Engineering Research Council of Canada; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; U.S. Department of Energy","keywords":"Materials science; Nanorod; Irradiation; Core (optical fiber); Shell (structure); Plasmon; Colloid; Anisotropy; Ion; Extinction (optical mineralogy); Metal; Nanoparticle; Inner core; Aspect ratio (aeronautics); Nanotechnology; Molecular physics; Optics; Composite material; Chemical engineering; Optoelectronics; Metallurgy","score_opus":0.007948631455450756,"score_gpt":0.22819489993396483,"score_spread":0.22024626847851408,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105993623","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982915,0.00024257974,0.000069582646,0.000067411514,0.0005558258,0.00028509783,0.00014453912,0.00014174682,0.00020174061],"genre_scores_gemma":[0.9943654,0.00022543418,0.005171133,0.000026367474,0.000063271684,0.000059567763,0.00002803701,0.00003696981,0.00002380584],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988823,0.000022876162,0.00048466897,0.00017282291,0.00015066545,0.00028669948],"domain_scores_gemma":[0.9996286,0.000046508045,0.00006728363,0.00017073801,0.000040380084,0.000046492114],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017110391,0.00016871413,0.00036944152,0.000049487793,0.000018713088,0.000019680618,0.00009709593,0.00007731512,0.000050694154],"category_scores_gemma":[0.00011084173,0.00016897354,0.000024260089,0.00013290964,0.00005228847,0.00015953487,0.000033927863,0.000019223908,0.000040299023],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006146876,0.000046894333,0.00004189297,0.000119027696,0.000012333774,0.000002201911,0.000111904505,0.0078012305,0.9908751,0.00063958875,0.000068391186,0.0002199384],"study_design_scores_gemma":[0.0009412407,0.00007273316,0.0016732775,0.000063717634,0.000009606561,0.0000012233212,0.00003804845,0.00002706107,0.9943294,0.0023123221,0.00035903687,0.00017231623],"about_ca_topic_score_codex":0.000049231996,"about_ca_topic_score_gemma":0.000028850596,"teacher_disagreement_score":0.0077741696,"about_ca_system_score_codex":0.00012871409,"about_ca_system_score_gemma":0.000012457895,"threshold_uncertainty_score":0.6890541},"labels":[],"label_agreement":null},{"id":"W2106234498","doi":"10.1002/adma.201102287","title":"Efficient Delivery of Gold Nanoparticles by Dual Receptor Targeting","year":2011,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoparticle-Based Drug Delivery","field":"Materials Science","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Cancer Institute; National Institutes of Health","keywords":"Folate receptor; Epidermal growth factor receptor; Colloidal gold; Materials science; Receptor; Nanotechnology; Cancer cell; Cancer research; Cancer; Nanoparticle; Chemistry; Biology; Medicine; Biochemistry; Internal medicine","score_opus":0.013068705930950705,"score_gpt":0.22077618742869975,"score_spread":0.20770748149774904,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106234498","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99721557,0.0004439833,0.000057298897,0.000023293383,0.0012128656,0.00032840145,0.00031686312,0.00018706718,0.00021467642],"genre_scores_gemma":[0.98770195,0.000029702856,0.011931491,0.0000729746,0.00006440811,0.00005423495,0.000016216216,0.000044459914,0.000084556006],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974457,0.00019788175,0.0008181091,0.0004818755,0.0004544717,0.0006019889],"domain_scores_gemma":[0.99866617,0.000116114345,0.00039953878,0.00042441627,0.00024622952,0.00014751939],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00094215374,0.0002581751,0.00044562027,0.00006689,0.00008694797,0.00003825691,0.00030112697,0.000083379964,0.0025699513],"category_scores_gemma":[0.00022228259,0.00023826129,0.00006113046,0.00018176003,0.00021440667,0.00023871216,0.0001784553,0.0000486765,0.0007975694],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003833034,0.00025262122,0.000039172497,0.000059496466,0.000008454677,0.000007484031,0.00039844576,0.00024163337,0.99632746,0.00025123882,0.0017032145,0.00032749042],"study_design_scores_gemma":[0.0006776516,0.00017713885,0.000053092303,0.00005115579,0.000025515523,0.0000028569184,0.0002043321,0.00002034652,0.99786824,0.00012214498,0.0005144552,0.00028306863],"about_ca_topic_score_codex":0.00012061964,"about_ca_topic_score_gemma":0.0000021632923,"teacher_disagreement_score":0.011874191,"about_ca_system_score_codex":0.00007738447,"about_ca_system_score_gemma":0.00006134236,"threshold_uncertainty_score":0.99998045},"labels":[],"label_agreement":null},{"id":"W2106607929","doi":"10.1002/adma.201104631","title":"Microfabricated Biomaterials for Engineering 3D Tissues","year":2012,"lang":"en","type":"review","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":395,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Institute of Dental and Craniofacial Research; National Institute of Biomedical Imaging and Bioengineering; National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Heart, Lung, and Blood Institute","keywords":"Microscale chemistry; Tissue engineering; Regenerative medicine; Nanotechnology; Materials science; Modular design; Function (biology); Biomedical engineering; Computer science; Stem cell; Engineering; Biology; Cell biology","score_opus":0.05571085004719951,"score_gpt":0.3521187143987222,"score_spread":0.2964078643515227,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106607929","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00007001858,0.9881636,0.0028201523,0.0000027921105,0.005263923,0.0017905586,0.0008052861,0.001007853,0.00007584609],"genre_scores_gemma":[0.000049231214,0.980961,0.015394909,0.0000029743762,0.0009691855,0.0014790731,0.0006101416,0.00036967758,0.00016379522],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99707115,0.00007139921,0.0010559194,0.00041440074,0.0003221382,0.0010650165],"domain_scores_gemma":[0.99845296,0.00046195896,0.0001745106,0.0005764691,0.00009935876,0.00023472183],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009186573,0.0006746678,0.0021113234,0.00033574042,0.00005211994,0.00018515214,0.00059742667,0.0005487787,0.00038535084],"category_scores_gemma":[0.0004180789,0.0005989569,0.00017834028,0.00029313372,0.000051714575,0.00016486929,0.00016937904,0.00011084826,0.0005639748],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000005168073,0.000015704127,1.8860463e-8,0.053126823,0.00021010349,0.0000043143214,0.000009668612,0.000036152,0.110412076,0.00008184713,0.0007031334,0.835395],"study_design_scores_gemma":[0.00014186736,0.000018124434,2.1604455e-7,0.0037140728,0.00023742628,0.00001696646,7.5684994e-7,0.000017318527,0.040494103,0.000011965093,0.9547565,0.00059067574],"about_ca_topic_score_codex":0.000005157377,"about_ca_topic_score_gemma":1.0217496e-7,"teacher_disagreement_score":0.9540534,"about_ca_system_score_codex":0.0002660473,"about_ca_system_score_gemma":0.000052175863,"threshold_uncertainty_score":0.9996462},"labels":[],"label_agreement":null},{"id":"W2107564830","doi":"10.1002/adma.200601651","title":"Protein Detecting Arrays Based on Cationic Polythiophene–DNA‐Aptamer Complexes","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":113,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Aptamer; Biomolecule; Polythiophene; Materials science; Biosensor; Cationic polymerization; Nanotechnology; DNA microarray; DNA; Proteomics; Combinatorial chemistry; Molecular biology; Polymer; Conductive polymer; Chemistry; Biochemistry; Biology; Gene expression; Polymer chemistry; Gene","score_opus":0.0070608337787554055,"score_gpt":0.2504651646502514,"score_spread":0.24340433087149602,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2107564830","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906743,0.000036515023,0.0076543954,0.0001425661,0.00009209149,0.00032763192,0.000047577734,0.00012577715,0.0008991319],"genre_scores_gemma":[0.9730641,0.000007195867,0.025621727,0.00028164533,0.0002721715,0.000059925693,0.0002198941,0.000036789505,0.00043655233],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986964,0.00007630724,0.0003158284,0.00044014858,0.00018148137,0.00028984723],"domain_scores_gemma":[0.9991783,0.000013064668,0.00020240014,0.00044455272,0.00012288873,0.000038808415],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019930063,0.00022729763,0.00022810389,0.0000643657,0.00016079945,0.00004559439,0.00013227969,0.00012362153,0.000012796676],"category_scores_gemma":[0.00010052388,0.00020335928,0.00007923437,0.00010865841,0.00007833283,0.0000067851806,0.00003748234,0.000051697938,0.000009736709],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001245514,0.0000492679,0.000013137689,0.000014018186,0.000009584482,0.0000018600215,0.000001390202,0.0002911626,0.99818176,0.00019595123,0.00007132815,0.0010459691],"study_design_scores_gemma":[0.00034368338,0.00020625447,0.00013296757,0.000045532648,0.000014523453,0.0000034003838,0.000008435813,0.000029559653,0.9940774,0.0007563258,0.004113082,0.00026886747],"about_ca_topic_score_codex":0.000040278937,"about_ca_topic_score_gemma":0.000044027143,"teacher_disagreement_score":0.017967332,"about_ca_system_score_codex":0.000037102545,"about_ca_system_score_gemma":0.00003771093,"threshold_uncertainty_score":0.8292751},"labels":[],"label_agreement":null},{"id":"W2108268685","doi":"10.1002/adma.200306375","title":"Enhancing Solid‐State Emission from Conjugated Polymers via Self‐Forming Host–Guest Systems","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Conjugated system; Thiophene; Materials science; Fluorene; Polymer; Luminescence; Solid-state; Photochemistry; Nanotechnology; Polymer chemistry; Optoelectronics; Organic chemistry; Physical chemistry; Chemistry","score_opus":0.005334367329088209,"score_gpt":0.23747204627635288,"score_spread":0.23213767894726467,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2108268685","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9900291,0.000691634,0.0028019533,0.000024436216,0.0042420635,0.0004562839,0.00009358623,0.0013218498,0.00033907403],"genre_scores_gemma":[0.99682873,0.00022407476,0.002029747,0.000021844915,0.00046443637,0.00004680532,0.00006150867,0.00015137526,0.00017144385],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99773765,0.000055503227,0.00066460104,0.00038608632,0.00042344554,0.00073273154],"domain_scores_gemma":[0.99903,0.000096411866,0.00011296426,0.0004467133,0.000094956005,0.00021895477],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00034434407,0.00034037753,0.0005063222,0.00011783478,0.0001396244,0.00017398613,0.00028500363,0.00014984437,0.00014858868],"category_scores_gemma":[0.00010920301,0.00033412245,0.000044585275,0.00020890187,0.00003237754,0.00047978846,0.00009937017,0.0001708323,0.00034566462],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024990195,0.000017146926,0.000009411516,0.00020505491,0.00006824107,0.00003835454,0.0007190894,0.0007544438,0.99803424,0.0000105760155,0.000023603425,0.000094823314],"study_design_scores_gemma":[0.0009264441,0.0000448743,0.00002422525,0.00046952153,0.000018332606,0.000015172715,0.0001394271,0.00023926067,0.9966565,0.000040906787,0.0010369819,0.00038837708],"about_ca_topic_score_codex":0.0003477572,"about_ca_topic_score_gemma":0.000011964345,"teacher_disagreement_score":0.006799645,"about_ca_system_score_codex":0.000525008,"about_ca_system_score_gemma":0.0000698211,"threshold_uncertainty_score":0.99991107},"labels":[],"label_agreement":null},{"id":"W2109485720","doi":"10.1002/adma.200501129","title":"Microfluidics for Processing Surfaces and Miniaturizing Biological Assays","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Microfluidic and Capillary Electrophoresis Applications","field":"Engineering","cited_by":252,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Microfluidics; Nanotechnology; Materials science; Biomolecule; Microchannel; Analyte; Context (archaeology); Lithography; Capillary action; Soft lithography; Optoelectronics; Fabrication; Chromatography; Chemistry","score_opus":0.01092181081799527,"score_gpt":0.23056251373752365,"score_spread":0.2196407029195284,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109485720","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9365247,0.059329048,0.003310921,0.00011401792,0.00007091751,0.0002728485,0.000051495394,0.00019511693,0.0001309469],"genre_scores_gemma":[0.94340223,0.047122013,0.0090188375,0.0000890879,0.00013955595,0.00012092876,0.000035611618,0.000029839284,0.000041895873],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99933827,0.000009449271,0.00019992463,0.00017099992,0.000048419653,0.00023296164],"domain_scores_gemma":[0.9997575,0.00003666074,0.000030118537,0.00009641894,0.00003725353,0.000042005846],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013940509,0.0001288826,0.00017768597,0.000024827661,0.000095678326,0.000046311485,0.000072888244,0.00007831466,0.00002971379],"category_scores_gemma":[0.000019309884,0.00011516634,0.000017956065,0.000049761085,0.00003281854,0.000103134036,0.000016449178,0.00003252205,0.000008662],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011396964,0.0000063095904,0.000005162691,0.000050871986,0.0000068365875,1.5771481e-7,0.00004314842,0.000013361631,0.98415655,0.00032228543,0.004403321,0.01098058],"study_design_scores_gemma":[0.00016912015,0.0000186421,0.00007443991,0.000012673567,0.000006947792,0.000004998024,0.000020024198,0.000035207904,0.7945706,0.00031369983,0.20465037,0.00012324702],"about_ca_topic_score_codex":5.279912e-7,"about_ca_topic_score_gemma":2.6908194e-7,"teacher_disagreement_score":0.20024705,"about_ca_system_score_codex":0.00003195303,"about_ca_system_score_gemma":0.000009766978,"threshold_uncertainty_score":0.4696347},"labels":[],"label_agreement":null},{"id":"W2110434317","doi":"10.1002/adma.200305694","title":"Micropixelated Luminescent Nanocrystal Arrays Synthesized by Ion Implantation","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Nanocrystal; Materials science; Luminescence; Nanocrystalline material; Nanotechnology; Fluorescence; Lithography; Silicon; Optoelectronics; Nanoparticle; Optics","score_opus":0.004213067419795196,"score_gpt":0.21780556573502638,"score_spread":0.2135924983152312,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2110434317","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99611205,0.00018954644,0.00033378464,0.000136751,0.0020972723,0.00046947188,0.00037585365,0.00020757095,0.00007769956],"genre_scores_gemma":[0.9974825,0.000093479364,0.0017666989,0.0002150051,0.00012243287,0.000053854084,0.00013619338,0.000039607614,0.000090265974],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998097,0.00007728976,0.00051940675,0.0005042174,0.0003215844,0.00048047933],"domain_scores_gemma":[0.999085,0.000047397436,0.0002762096,0.0003516973,0.00012221029,0.00011747041],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00023110125,0.00029295814,0.0003895916,0.000055165026,0.00017895584,0.00014115064,0.0002868296,0.00013217214,0.00092725724],"category_scores_gemma":[0.00011521001,0.0002573015,0.000052969768,0.00014502954,0.000101099045,0.00035141167,0.000055658234,0.000056025612,0.00022181662],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027683613,0.000044259825,0.000010504316,0.000047503774,0.0000053529525,0.000013564094,0.00011897865,0.000052884378,0.99879754,0.00019106238,0.000234058,0.00020746978],"study_design_scores_gemma":[0.0014574646,0.00008086908,0.00020411445,0.00009744434,0.000018225839,0.000092710354,0.000043554865,5.0183104e-7,0.99513936,0.0007279332,0.0018080373,0.0003297674],"about_ca_topic_score_codex":0.00021719896,"about_ca_topic_score_gemma":0.000014296289,"teacher_disagreement_score":0.003658149,"about_ca_system_score_codex":0.00013581656,"about_ca_system_score_gemma":0.00006806103,"threshold_uncertainty_score":0.9999879},"labels":[],"label_agreement":null},{"id":"W2110584113","doi":"10.1002/adma.201002290","title":"Emergent Properties Resulting from Type‐II Band Alignment in Semiconductor Nanoheterostructures","year":2010,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":372,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Heterojunction; Semiconductor; Materials science; Photoexcitation; Nanocrystalline material; Nanotechnology; Exciton; Band gap; Nanostructure; Optoelectronics; Excitation; Physics","score_opus":0.06500394662152499,"score_gpt":0.3058537521315677,"score_spread":0.2408498055100427,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2110584113","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.31658185,0.67732495,2.5173418e-7,0.0000122277115,0.004629588,0.0007762133,0.00051899033,0.00008003386,0.00007592728],"genre_scores_gemma":[0.011173814,0.98634815,0.0009366661,0.000045363387,0.0005514051,0.00030857953,0.00013612883,0.00013766791,0.000362204],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9958041,0.00046415348,0.0016082852,0.0009917804,0.00046646415,0.00066525675],"domain_scores_gemma":[0.99802274,0.00010986295,0.0007992372,0.0008566363,0.000100817015,0.00011072824],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007965392,0.0007777705,0.0023421147,0.00014318383,0.00023780498,0.00024074942,0.00072192267,0.00048661875,0.0037340831],"category_scores_gemma":[0.0004683182,0.0005039012,0.00016875323,0.00012820106,0.0001487096,0.00033444827,0.00034161063,0.0002627428,0.0003034718],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000067940484,0.00003053654,2.9101162e-7,0.0020309482,0.000019501818,0.000008266805,0.00024884773,0.0000023498494,0.9265106,0.00001555524,0.00012890746,0.0709363],"study_design_scores_gemma":[0.0001254523,0.000044501096,0.0000010673111,0.005247463,0.000071422386,0.000005457226,0.000022060696,1.205555e-7,0.50417405,0.00007067456,0.48982292,0.0004148111],"about_ca_topic_score_codex":0.00033224185,"about_ca_topic_score_gemma":0.000071209804,"teacher_disagreement_score":0.489694,"about_ca_system_score_codex":0.00014718092,"about_ca_system_score_gemma":0.00020173614,"threshold_uncertainty_score":0.99974126},"labels":[],"label_agreement":null},{"id":"W2111667751","doi":"10.1002/adma.200702219","title":"Silicon Photovoltaics Using Conducting Photonic Crystal Back‐Reflectors","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":101,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Optoelectronics; Photovoltaics; Semiconductor; Absorption (acoustics); Wafer; Photonic crystal; Reflector (photography); Optics; Photovoltaic system; Solar cell; Silicon; Crystalline silicon; Plasmonic solar cell; Monocrystalline silicon; Electrical engineering; Light source","score_opus":0.05528239942068186,"score_gpt":0.3032633641240179,"score_spread":0.24798096470333603,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2111667751","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948754,0.00003539869,0.00078736787,0.000010675201,0.0002766084,0.00039176765,0.00017171726,0.000056657307,0.0033944475],"genre_scores_gemma":[0.99627745,0.000010100111,0.0029307343,0.000041301228,0.00020764113,0.0000687706,0.00008532589,0.00004169623,0.0003369792],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870676,0.000031481904,0.00037323253,0.00034333015,0.00015665428,0.00038857138],"domain_scores_gemma":[0.99922484,0.00004392318,0.00021385966,0.0003382824,0.00008608741,0.00009298637],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011589146,0.00021946584,0.0003183654,0.00004023252,0.00032528743,0.000042817304,0.00015720104,0.00004242708,0.0039281677],"category_scores_gemma":[0.000008975419,0.0002194651,0.00007883725,0.00015398185,0.00009032065,0.00024999797,0.00007095306,0.00008451694,0.00008090514],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012625175,0.00005391473,0.0002150014,0.000008771572,0.000021444777,0.0000015375273,0.0001230801,0.00015413426,0.99845856,0.00076032814,0.00006414575,0.00012647914],"study_design_scores_gemma":[0.00049754966,0.000019358,0.000050543782,0.000021840968,0.000015365542,0.000013015906,0.00020563338,0.00007646139,0.9877285,0.0012785714,0.009833694,0.00025946452],"about_ca_topic_score_codex":0.00037821042,"about_ca_topic_score_gemma":0.000004444241,"teacher_disagreement_score":0.010730037,"about_ca_system_score_codex":0.00006481991,"about_ca_system_score_gemma":0.000113278205,"threshold_uncertainty_score":0.9969824},"labels":[],"label_agreement":null},{"id":"W2112614773","doi":"10.1002/adma.201200397","title":"Emerging Applications of Atomic Layer Deposition for Lithium‐Ion Battery Studies","year":2012,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":563,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Atomic layer deposition; Materials science; Nanotechnology; Electronics; Anode; Battery (electricity); Lithium (medication); Energy storage; Nanoarchitectures for lithium-ion batteries; Coating; Layer (electronics); Engineering physics; Electrode; Electrical engineering; Power (physics); Engineering; Chemistry; Physics","score_opus":0.0540917688221021,"score_gpt":0.3601737185066381,"score_spread":0.306081949684536,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2112614773","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00030235658,0.9686174,0.023841681,0.000004128691,0.0032468513,0.0027719985,0.00089551206,0.00026826048,0.000051810814],"genre_scores_gemma":[0.0005127939,0.978483,0.013343,0.000017955224,0.00076968357,0.0060657864,0.0005137882,0.00022283618,0.00007115943],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9975445,0.00008523697,0.0013790336,0.00035054432,0.00018433406,0.00045631488],"domain_scores_gemma":[0.9983884,0.00025994316,0.00058470696,0.00057882775,0.00013673994,0.000051358365],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004188296,0.000562012,0.0020721045,0.000205005,0.000082570084,0.00002990666,0.00028620329,0.00022099359,0.00009763323],"category_scores_gemma":[0.00003900574,0.0005245228,0.00014786415,0.00014325684,0.000053515392,0.00037197332,0.00011183225,0.0000776976,0.00007807296],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020177338,0.000045824076,2.1062156e-7,0.12704341,0.0006118448,7.689054e-7,0.000110778295,0.00023539472,0.11602769,0.00045135972,0.00038791075,0.7550646],"study_design_scores_gemma":[0.00022821614,0.000024082863,2.5113573e-7,0.006052004,0.00092470547,0.000011295479,0.00002663701,7.152853e-7,0.14008051,0.0008626446,0.85122746,0.0005614691],"about_ca_topic_score_codex":7.038164e-7,"about_ca_topic_score_gemma":4.7495234e-7,"teacher_disagreement_score":0.85083956,"about_ca_system_score_codex":0.00028622436,"about_ca_system_score_gemma":0.000021305194,"threshold_uncertainty_score":0.99972063},"labels":[],"label_agreement":null},{"id":"W2113096622","doi":"10.1002/adma.201203026","title":"Pulsed Laser Ablation based Direct Synthesis of Single‐Wall Carbon Nanotube/PbS Quantum Dot Nanohybrids Exhibiting Strong, Spectrally Wide and Fast Photoresponse","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon Nanotubes in Composites","field":"Materials Science","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"","keywords":"Materials science; Carbon nanotube; Quantum dot; Photoconductivity; Laser ablation; Laser; Nanotechnology; Optoelectronics; Pulsed laser deposition; Nanotube; Carbon fibers; Thin film; Optics; Composite material; Composite number","score_opus":0.011029054440937897,"score_gpt":0.23637316076540082,"score_spread":0.22534410632446292,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113096622","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99647886,0.00023607082,0.00008661265,0.00006696958,0.0012315692,0.0005461698,0.00017308128,0.00020411427,0.000976566],"genre_scores_gemma":[0.99482524,0.000019139827,0.0046133357,0.00009574962,0.00017884861,0.00009997561,0.000017893015,0.00008782285,0.00006201224],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99660486,0.0005157721,0.0009016173,0.00058272027,0.0005853077,0.00080972],"domain_scores_gemma":[0.9968896,0.0016049899,0.0005621674,0.0006075155,0.00017250929,0.00016325519],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0016886655,0.0004402511,0.00080050784,0.00021102934,0.00013395939,0.00014298772,0.00028149417,0.00013348699,0.00033426905],"category_scores_gemma":[0.0014305402,0.00042902282,0.000091862494,0.00020128295,0.00022722216,0.0006147133,0.00014011393,0.00007029725,0.000014174316],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009486483,0.00015624137,0.0012440616,0.00015739595,0.000015895657,0.000007750059,0.00015663468,0.00025652265,0.9967329,0.00010523365,0.00001117358,0.00020756276],"study_design_scores_gemma":[0.0006988496,0.0001708476,0.002362015,0.00032560588,0.00008156096,0.000012882421,0.00004678394,0.00015788077,0.99538785,0.00009250151,0.00019853527,0.0004646586],"about_ca_topic_score_codex":0.00018045864,"about_ca_topic_score_gemma":0.000026307065,"teacher_disagreement_score":0.004526723,"about_ca_system_score_codex":0.0002285734,"about_ca_system_score_gemma":0.000086586966,"threshold_uncertainty_score":0.9998162},"labels":[],"label_agreement":null},{"id":"W2115699769","doi":"10.1002/adma.201304349","title":"Photon‐In/Photon‐Out Spectroscopic Techniques for Materials Analysis: Some Recent Developments","year":2014,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ga2O3 and related materials","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"XANES; Materials science; Beamline; Absorption (acoustics); Synchrotron; Optoelectronics; Photon; Spectrometer; Optics; Synchrotron radiation; Streak camera; Advanced Photon Source; Spectroscopy; Physics; Beam (structure); Laser","score_opus":0.011745389376256913,"score_gpt":0.2833022802161676,"score_spread":0.2715568908399107,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2115699769","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99037665,0.00012342626,0.0010519478,0.00014946776,0.004428982,0.002022191,0.00035118876,0.00048758814,0.0010085503],"genre_scores_gemma":[0.95916784,0.0007480625,0.036212757,0.0005658706,0.0004234715,0.0015614531,0.0003566847,0.00011925717,0.0008446161],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9951667,0.00037021592,0.0016493379,0.0011157648,0.00050864194,0.0011893025],"domain_scores_gemma":[0.9979159,0.00015398722,0.00068960333,0.00080664095,0.0002513576,0.00018246683],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.002756525,0.0006251792,0.0016163916,0.0005108476,0.00023000299,0.00038271424,0.00067301566,0.00038069606,0.004114111],"category_scores_gemma":[0.00039663972,0.0005435419,0.00013241202,0.00040529197,0.0001316022,0.00065962266,0.00020730366,0.0000896697,0.0007121394],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003492433,0.000112621245,0.000029628718,0.00018166321,0.00009146932,0.0000072370412,0.00016681736,0.0000141614355,0.9969374,0.001568545,0.00017566704,0.0003655237],"study_design_scores_gemma":[0.0012575178,0.00018351761,0.00045961386,0.00016635217,0.00021373015,0.0000044407834,0.000031999512,0.0000018596562,0.96980286,0.009330291,0.01789728,0.00065055693],"about_ca_topic_score_codex":0.00007963726,"about_ca_topic_score_gemma":0.00002915754,"teacher_disagreement_score":0.03516081,"about_ca_system_score_codex":0.0003027587,"about_ca_system_score_gemma":0.00012108688,"threshold_uncertainty_score":0.9997016},"labels":[],"label_agreement":null},{"id":"W2116531827","doi":"10.1002/adma.200501973","title":"Direct Laser Writing of Three‐ Dimensional Photonic Crystals with a Complete Photonic Bandgap in Chalcogenide Glasses","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":241,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Chalcogenide; Photonic crystal; Chalcogenide glass; Photonics; Optoelectronics; Fabrication; Photonic bandgap; Band gap; Laser; Refractive index; Yablonovite; Photonic metamaterial; Optics; Microstructure; Photonic integrated circuit; Composite material","score_opus":0.010083576732960101,"score_gpt":0.2369626089165107,"score_spread":0.2268790321835506,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2116531827","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939195,0.00007985084,0.00024037273,0.000032760043,0.000043554573,0.0005279604,0.00063074776,0.000034042303,0.0044912337],"genre_scores_gemma":[0.9974827,0.0000041668654,0.0018436783,0.00001925021,0.00006869223,0.0002961876,0.00017339282,0.000033928198,0.00007797371],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985297,0.000033086013,0.0005178156,0.00034786842,0.00020888716,0.00036268999],"domain_scores_gemma":[0.9991614,0.0001198075,0.0002797025,0.00030570614,0.0000890967,0.00004424078],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020184793,0.00022341614,0.00047772384,0.00006369272,0.000087276116,0.000034578366,0.00014091149,0.00003195114,0.00069674494],"category_scores_gemma":[0.0000037305633,0.00019290378,0.00006538564,0.00019109946,0.000082017075,0.00014887936,0.000060745544,0.000060117607,0.000010330025],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007791774,0.00016285984,0.0017246313,0.000030930107,0.000026658285,0.0000029572516,0.000013261215,0.0016320073,0.992967,0.0031782389,0.000023989383,0.00015951227],"study_design_scores_gemma":[0.0013373321,0.00005235982,0.0037758353,0.00016204585,0.000025315878,0.0000029697371,0.000047072077,0.000106792635,0.9870887,0.005027389,0.002108299,0.0002658801],"about_ca_topic_score_codex":0.0009957995,"about_ca_topic_score_gemma":0.0003312942,"teacher_disagreement_score":0.005878328,"about_ca_system_score_codex":0.00004021462,"about_ca_system_score_gemma":0.00008327833,"threshold_uncertainty_score":0.7866388},"labels":[],"label_agreement":null},{"id":"W2118091478","doi":"10.1002/adma.200400762","title":"Colloidal Crystals Grown on Patterned Surfaces","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Colloidal crystal; Diffraction; Photonic crystal; Fabrication; Colloid; Nanotechnology; Optics; Laser; Optoelectronics; Chemical engineering","score_opus":0.007800470011654623,"score_gpt":0.2516436181135198,"score_spread":0.2438431481018652,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2118091478","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9925451,0.000009702954,0.0010329664,0.0002654546,0.00017422583,0.00031610005,0.0003920111,0.000058359612,0.005206066],"genre_scores_gemma":[0.99849725,0.0000045268785,0.0006712908,0.00011591243,0.00012378649,0.00015376182,0.00006674841,0.000021357397,0.0003453534],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99915177,0.000014410651,0.00022206503,0.00024290432,0.00013379684,0.00023506035],"domain_scores_gemma":[0.999508,0.000026617601,0.00010629496,0.00025802423,0.000039017203,0.00006201748],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00008991805,0.0001488315,0.00020328499,0.00002129468,0.000113347356,0.000066125554,0.00013320653,0.00002435707,0.0012399106],"category_scores_gemma":[0.0000038286257,0.00013361209,0.000044587687,0.00006882979,0.00003167597,0.00011589117,0.00003532915,0.00003998536,0.00016003913],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021613325,0.00009999087,0.000049281178,0.0000061121623,0.000015138602,8.0632526e-7,0.00004971994,0.0009818682,0.9670918,0.030958753,0.00008391823,0.0006409741],"study_design_scores_gemma":[0.00082938763,0.000049541468,0.0005963032,0.000030709223,0.000007876232,4.783289e-7,0.00009033175,6.1452437e-7,0.9524342,0.037004244,0.008779452,0.00017686933],"about_ca_topic_score_codex":0.00013472862,"about_ca_topic_score_gemma":0.0000032335956,"teacher_disagreement_score":0.014657631,"about_ca_system_score_codex":0.000037854068,"about_ca_system_score_gemma":0.000039895127,"threshold_uncertainty_score":0.99967307},"labels":[],"label_agreement":null},{"id":"W2120108319","doi":"10.1002/adma.200802832","title":"Exploiting the Kubas Interaction in the Design of Hydrogen Storage Materials","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Hydrogen Storage and Materials","field":"Materials Science","cited_by":203,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Physisorption; Hydrogen storage; Adsorption; Materials science; Hydrogen; Nanotechnology; Metal; Material Design; Chemical engineering; Physical chemistry; Chemistry; Organic chemistry; Metallurgy; Composite material; Engineering","score_opus":0.030352265573301954,"score_gpt":0.28696152395517627,"score_spread":0.2566092583818743,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2120108319","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9957813,0.00012548607,0.0010931834,0.0003794116,0.0011868246,0.0010761971,0.00008094293,0.00008804778,0.00018862229],"genre_scores_gemma":[0.9972901,0.00007619175,0.0013929324,0.0006720935,0.00029975487,0.0001768959,0.000019845274,0.000031478874,0.000040739746],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99612,0.0012986892,0.0010873601,0.00042949014,0.0005173186,0.00054716703],"domain_scores_gemma":[0.9980844,0.00036520252,0.0006389465,0.0007546929,0.00010851793,0.000048204496],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00461717,0.00032877902,0.00061758247,0.000106461805,0.00020416436,0.00022738414,0.00083956134,0.00009602234,0.0012099394],"category_scores_gemma":[0.00039986818,0.00019671045,0.00006123867,0.00023189637,0.00011150853,0.0007192153,0.00008789439,0.00008766743,0.00019446279],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002731751,0.000076979006,9.850712e-7,0.00003140502,0.0000058590117,0.00003083336,0.0014554857,0.0014157606,0.9951288,0.000879434,0.00012290412,0.0005783913],"study_design_scores_gemma":[0.00045570137,0.00016719964,0.00007692472,0.00010715055,0.000026434593,0.000053738593,0.00069506245,0.0000056291246,0.99400693,0.0031748484,0.0010016036,0.00022874773],"about_ca_topic_score_codex":0.00012994654,"about_ca_topic_score_gemma":0.00000771456,"teacher_disagreement_score":0.004217302,"about_ca_system_score_codex":0.000087731794,"about_ca_system_score_gemma":0.000056612862,"threshold_uncertainty_score":0.9997031},"labels":[],"label_agreement":null},{"id":"W2120351488","doi":"10.1002/adma.200306262","title":"Magnetic Ceramic Films from a Metallopolymer Resist Using Reactive Ion Etching in a Secondary Magnetic Field","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Dielectric materials and actuators","field":"Engineering","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Reactive-ion etching; Spintronics; Resist; Etching (microfabrication); Ceramic; Nanotechnology; Magnetic field; Plasma etching; Composite material; Ferromagnetism; Condensed matter physics; Layer (electronics)","score_opus":0.004975627204984992,"score_gpt":0.20769244371143697,"score_spread":0.20271681650645199,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2120351488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994185,0.0012676424,0.00030269544,0.000026829033,0.0009900538,0.00027709967,0.00006721995,0.00016578242,0.0027177122],"genre_scores_gemma":[0.9947657,0.00015999355,0.0047034626,0.000112558635,0.00010631444,0.0000386094,0.00002027831,0.000061428276,0.00003167409],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986276,0.000042286843,0.00044519885,0.00029822183,0.00019300832,0.00039371048],"domain_scores_gemma":[0.99955875,0.0000716686,0.00006826169,0.00021323498,0.000026879728,0.000061185136],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016585701,0.00026659196,0.00042020052,0.000135249,0.00004734289,0.000102157785,0.00014749188,0.00012331082,0.0017890858],"category_scores_gemma":[0.00008696844,0.00027267545,0.000043285036,0.00015847995,0.000019527884,0.0003145584,0.000042962973,0.00012684442,0.000035867928],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006356391,0.000019886233,0.0000016993855,0.000054635573,0.00001291052,0.0000429708,0.00021005601,0.0017357395,0.9912145,0.00008042423,0.00001532626,0.0065482897],"study_design_scores_gemma":[0.00096440705,0.000113996364,0.00038686456,0.0001674808,0.000028357597,0.000010141294,0.00007940472,0.000082434184,0.9931654,0.004334816,0.00032885373,0.0003378532],"about_ca_topic_score_codex":0.001236239,"about_ca_topic_score_gemma":0.00009234216,"teacher_disagreement_score":0.0062104366,"about_ca_system_score_codex":0.00017236378,"about_ca_system_score_gemma":0.000049156042,"threshold_uncertainty_score":0.9999725},"labels":[],"label_agreement":null},{"id":"W2121874813","doi":"10.1002/adma.201001164","title":"Structure‐Morphology‐Property Relationships of Non‐Perfluorinated Proton‐Conducting Membranes","year":2010,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Fuel Cells and Related Materials","field":"Engineering","cited_by":614,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Proton exchange membrane fuel cell; Materials science; Context (archaeology); Membrane; Proton; Morphology (biology); Phase (matter); Durability; Copolymer; Polymer; Chemical engineering; Nanotechnology; Fuel cells; Composite material; Organic chemistry; Engineering; Chemistry","score_opus":0.04652022156170923,"score_gpt":0.2839938338113067,"score_spread":0.23747361224959748,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2121874813","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0076735714,0.9810235,0.0000065898994,0.0000034170703,0.0061595016,0.002794576,0.0005253383,0.0004013616,0.001412178],"genre_scores_gemma":[0.0026764686,0.99308074,0.0026441433,0.0000028342286,0.0003078209,0.0003502878,0.00036296647,0.00026857355,0.00030619267],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9969868,0.00020751325,0.0015795653,0.00050340104,0.0002244291,0.00049827783],"domain_scores_gemma":[0.9982481,0.00014416932,0.0006252212,0.0007282519,0.00015371942,0.00010051187],"candidate_categories":["metaepi_narrow","research_integrity","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00054184283,0.00076593424,0.0026809766,0.00025032813,0.000120086894,0.00006353275,0.0004514504,0.0013798148,0.001011586],"category_scores_gemma":[0.00022237215,0.00049262785,0.00020403956,0.00028660326,0.00012505645,0.0002396977,0.000102285274,0.00080457947,0.0001130436],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014769725,0.000020922873,2.2258756e-7,0.1500797,0.00021301613,0.000024564246,0.000071261085,0.00056740624,0.7864959,0.00001792253,0.000064631866,0.062429678],"study_design_scores_gemma":[0.00024383003,0.000028913388,3.0970443e-7,0.0041708285,0.0003177648,0.000102957034,0.0000080547325,0.000004540173,0.4137906,0.0001011947,0.58069867,0.0005323125],"about_ca_topic_score_codex":0.000017450011,"about_ca_topic_score_gemma":0.0000025154661,"teacher_disagreement_score":0.58063406,"about_ca_system_score_codex":0.00007931558,"about_ca_system_score_gemma":0.00009559477,"threshold_uncertainty_score":0.9999166},"labels":[],"label_agreement":null},{"id":"W2122937684","doi":"10.1002/adma.200602230","title":"Growth and Crystallization of Metal‐Containing Block Copolymer Nanotubes in a Selective Solvent","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Block Copolymer Self-Assembly","field":"Materials Science","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Copolymer; Crystallization; Crystallinity; Solvent; Metal; Chemical engineering; Morphology (biology); Nanotube; Nanostructure; Polymer chemistry; Nanotechnology; Organic chemistry; Polymer; Composite material; Carbon nanotube; Chemistry; Metallurgy","score_opus":0.007849796858788224,"score_gpt":0.2496266275036174,"score_spread":0.24177683064482916,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2122937684","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99699014,0.0006788087,0.00091024936,0.0000307056,0.00041669965,0.00036216548,0.00002215571,0.00007379716,0.00051528856],"genre_scores_gemma":[0.99611515,0.00004768979,0.0036295392,0.00007075775,0.00004982232,0.00003156549,0.000005768425,0.0000333466,0.000016363136],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980544,0.000108079155,0.0006726308,0.00040881254,0.00030774446,0.0004483328],"domain_scores_gemma":[0.9991166,0.00016291207,0.00030329966,0.00019865674,0.0001433382,0.00007521121],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0009052568,0.0002213891,0.00049437856,0.00019534398,0.00007304851,0.000041623145,0.0001627961,0.000099453704,0.00009414755],"category_scores_gemma":[0.00019191332,0.00021516274,0.000029247578,0.00028555974,0.00009529577,0.0004214196,0.00011423616,0.000048533122,0.0000073032534],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030061632,0.000068065034,0.00037197597,0.00007771853,0.000012366461,0.0000097791535,0.00069054787,0.000016359461,0.9964554,0.0017793796,0.0000026588614,0.00021516386],"study_design_scores_gemma":[0.0008788116,0.0002001953,0.0025452054,0.00009456196,0.000026365708,0.000015697207,0.00024893245,0.0000032209834,0.99493486,0.00080276607,0.000027941362,0.000221426],"about_ca_topic_score_codex":0.00044276254,"about_ca_topic_score_gemma":0.00019059479,"teacher_disagreement_score":0.0027192899,"about_ca_system_score_codex":0.000071517294,"about_ca_system_score_gemma":0.00006627504,"threshold_uncertainty_score":0.8774082},"labels":[],"label_agreement":null},{"id":"W2123014388","doi":"10.1002/adma.201090137","title":"Fuel Cells: Structure‐Morphology‐Property Relationships of Non‐Perfluorinated Proton‐Conducting Membranes (Adv. Mater. 42/2010)","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Fuel Cells and Related Materials","field":"Engineering","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Materials science; Proton exchange membrane fuel cell; Context (archaeology); Membrane; Morphology (biology); Proton; Phase (matter); Chemical engineering; Fuel cells; Block (permutation group theory); Polymer; Copolymer; Nanotechnology; Composite material; Organic chemistry; Engineering; Chemistry","score_opus":0.018554008373239034,"score_gpt":0.2248156287625823,"score_spread":0.20626162038934326,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123014388","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9875263,0.00024525882,0.000023169918,0.000038184797,0.008743984,0.001079386,0.00021952046,0.00043119572,0.0016930072],"genre_scores_gemma":[0.9905207,0.0003741464,0.00793305,0.000015359838,0.00023427482,0.00011976179,0.00007721665,0.00014028931,0.00058521074],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977931,0.00009761994,0.00092182547,0.00042034246,0.00023282484,0.00053431117],"domain_scores_gemma":[0.9987298,0.000076859564,0.00026969504,0.00061923545,0.00018463365,0.000119747936],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005157283,0.00044164364,0.0007035812,0.00015759484,0.00013991265,0.00007882008,0.0003460312,0.0005261805,0.0020694253],"category_scores_gemma":[0.00012465908,0.00032001294,0.00006863211,0.00020221369,0.0001548602,0.00043797184,0.00009007031,0.0004445959,0.00012977791],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006580051,0.000026181136,0.000027607453,0.0028686477,0.000055654866,0.00001695262,0.00025350245,0.004062939,0.9923455,0.000033006945,0.00012058573,0.00012359701],"study_design_scores_gemma":[0.0007844703,0.000053790114,0.00017689339,0.000100829726,0.000045917604,0.00006174738,0.0000736566,0.00012728231,0.99338067,0.00067066576,0.004089087,0.00043501746],"about_ca_topic_score_codex":0.00006958551,"about_ca_topic_score_gemma":0.0000130681265,"teacher_disagreement_score":0.008509709,"about_ca_system_score_codex":0.000035954767,"about_ca_system_score_gemma":0.00003241908,"threshold_uncertainty_score":0.9999252},"labels":[],"label_agreement":null},{"id":"W2123301514","doi":"10.1002/adma.201300341","title":"“Shrink‐to‐Fit” Superhydrophobicity: Thermally‐Induced Microscale Wrinkling of Thin Hydrophobic Multilayers Fabricated on Flexible Shrink‐Wrap Substrates","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Surface Modification and Superhydrophobicity","field":"Materials Science","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Naval Research; Natural Sciences and Engineering Research Council of Canada; University of Wisconsin-Madison; National Science Foundation","keywords":"Materials science; Microscale chemistry; Nanotechnology; Polymer; Composite material","score_opus":0.03181181893614924,"score_gpt":0.27482903648360724,"score_spread":0.243017217547458,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123301514","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949056,0.00007746466,0.00011551763,0.00034672243,0.0012942288,0.0017121581,0.00013597729,0.00052415044,0.00088817516],"genre_scores_gemma":[0.99405456,0.000055586363,0.0040105404,0.00072020316,0.0000947187,0.00031236172,0.000035009954,0.00012768393,0.00058933516],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9951887,0.00034676088,0.0013789907,0.0012070277,0.0008042528,0.0010742703],"domain_scores_gemma":[0.9970986,0.0002699833,0.00042632018,0.0013035483,0.00048775753,0.000413763],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0008998378,0.0006992676,0.0010855127,0.00032379193,0.0003243902,0.0002993028,0.0010111954,0.00029658948,0.0051095],"category_scores_gemma":[0.00021065128,0.00062520173,0.00017813378,0.00058282993,0.00022373826,0.0006824232,0.00024407619,0.00022901008,0.0042601293],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026734202,0.00030524947,0.00013933454,0.00007458992,0.000021251099,0.0000069017606,0.00073279697,0.0048822477,0.992979,0.0001563082,0.00011023573,0.00032478143],"study_design_scores_gemma":[0.0011254285,0.00032414251,0.0030662606,0.00013111204,0.000022070688,0.000008286318,0.0003582508,0.00028831357,0.99333656,0.00031289665,0.00032599087,0.0007007162],"about_ca_topic_score_codex":0.0012933193,"about_ca_topic_score_gemma":0.00001992603,"teacher_disagreement_score":0.0045939344,"about_ca_system_score_codex":0.00021048522,"about_ca_system_score_gemma":0.00012199748,"threshold_uncertainty_score":0.9996199},"labels":[],"label_agreement":null},{"id":"W2123376766","doi":"10.1002/adma.200800326","title":"Solution Processed Photovoltaic Devices with 2% Infrared Monochromatic Power Conversion Efficiency: Performance Optimization and Oxide Formation","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photovoltaic system; Energy conversion efficiency; Infrared; Monochromatic color; Optoelectronics; Oxide; Annealing (glass); Energy transformation; Quantum efficiency; Quantum dot; Electrical efficiency; Power (physics); Optics; Electrical engineering; Composite material","score_opus":0.011427804577858091,"score_gpt":0.1974147873454863,"score_spread":0.1859869827676282,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123376766","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99462897,0.00023536338,0.004182145,0.000027492657,0.0001295473,0.0004505236,0.000009935976,0.00014427223,0.00019174998],"genre_scores_gemma":[0.9857193,0.0003231882,0.013706969,0.00006404552,0.00001414878,0.00007683259,0.000016849359,0.000021477395,0.00005716382],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870574,0.00006899124,0.00036362917,0.00027783486,0.00030687783,0.0002769477],"domain_scores_gemma":[0.9992471,0.000041273408,0.00028982564,0.00018780405,0.0001771419,0.00005685272],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032046548,0.00019980816,0.0002750543,0.0000788858,0.00042175903,0.00011480569,0.0001242408,0.00006431682,0.00030604182],"category_scores_gemma":[0.00006343902,0.00014483022,0.000013493314,0.0001257692,0.00015544938,0.0022143037,0.0000440992,0.00003172289,0.000050756844],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023537109,0.000027855103,0.00006381966,0.00030809932,0.00000295732,0.0000020273017,0.0006439241,0.005144452,0.99347365,0.0000056381136,0.00002535328,0.000066875386],"study_design_scores_gemma":[0.0005698271,0.00021768865,0.0017825016,0.00022586162,0.000015493464,0.000059826107,0.00016204422,0.009498587,0.9871074,0.000017128492,0.00010638921,0.00023727708],"about_ca_topic_score_codex":0.000025060408,"about_ca_topic_score_gemma":0.0000025484374,"teacher_disagreement_score":0.009524824,"about_ca_system_score_codex":0.00005912274,"about_ca_system_score_gemma":0.000061504405,"threshold_uncertainty_score":0.5906005},"labels":[],"label_agreement":null},{"id":"W2123512054","doi":"10.1002/adma.200600579","title":"DNA Designer Defects in Photonic Crystals: Optically Monitored Biochemistry","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Materials science; Biomolecule; Intercalation (chemistry); Biosensor; Planar; Photonic crystal; Nanotechnology; Photonics; DNA; Optically active; Optoelectronics; Chemistry; Organic chemistry; Computer science; Biochemistry","score_opus":0.0052323253467768316,"score_gpt":0.23834476231977955,"score_spread":0.2331124369730027,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123512054","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99305665,0.000054491386,0.0009171981,0.000033403692,0.00007707804,0.00030975876,0.00014508101,0.000047733825,0.0053586066],"genre_scores_gemma":[0.9967132,0.0000035444161,0.0023814505,0.000013951181,0.0001565428,0.0003154956,0.00012845862,0.00002612905,0.000261199],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988915,0.000022187804,0.00033410575,0.00030145707,0.000120951656,0.00032982114],"domain_scores_gemma":[0.9994522,0.000047894806,0.00010471824,0.0002975151,0.000044816767,0.000052871634],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012724215,0.00017529287,0.00023965043,0.000030846943,0.0000640345,0.00006325688,0.0001511991,0.00004781386,0.000463909],"category_scores_gemma":[0.0000069487915,0.00017209318,0.000051166648,0.00012428898,0.00004598957,0.00010282368,0.000046099856,0.000055365377,0.000033363067],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000168698,0.00011892606,0.00020871495,0.000013368734,0.0000058475175,0.0000019612287,0.000009640763,0.00016526457,0.99595857,0.0031372302,0.000090239184,0.0002733485],"study_design_scores_gemma":[0.0005704559,0.000011568986,0.0011365664,0.00003131767,0.000007646778,8.1935343e-7,0.000052047184,0.000011614452,0.9832603,0.012977407,0.001737122,0.00020314107],"about_ca_topic_score_codex":0.0001941832,"about_ca_topic_score_gemma":0.0000043879477,"teacher_disagreement_score":0.0126982955,"about_ca_system_score_codex":0.000058769623,"about_ca_system_score_gemma":0.00006388583,"threshold_uncertainty_score":0.7017756},"labels":[],"label_agreement":null},{"id":"W2124130595","doi":"10.1002/adma.200701052","title":"Rubrene/Fullerene Heterostructures with a Half‐Gap Electroluminescence Threshold and Large Photovoltage","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":134,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Rubrene; Electroluminescence; Materials science; Optoelectronics; Heterojunction; Voltage; Electrical engineering; Nanotechnology; Engineering","score_opus":0.004300134467880234,"score_gpt":0.2028829485944976,"score_spread":0.19858281412661735,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2124130595","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9957972,0.00097416434,0.0018533053,0.00000953318,0.000257448,0.0002667054,0.000043126496,0.00026504486,0.000533428],"genre_scores_gemma":[0.99827796,0.00036859536,0.00095425255,0.00010557144,0.000102995655,0.00001745301,0.000024705632,0.00007874392,0.0000697455],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985713,0.00000799662,0.0002685936,0.00027680295,0.00018940805,0.00068591774],"domain_scores_gemma":[0.9994785,0.000030412153,0.000054750213,0.00027782714,0.000047216792,0.000111261135],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002533058,0.00028116026,0.0003105765,0.00006388401,0.00009288456,0.000072047675,0.0001346232,0.000101692145,0.00013124327],"category_scores_gemma":[0.000012720383,0.00024311907,0.000020942718,0.00014313548,0.000038734917,0.00015694837,0.000036698915,0.00013204956,0.0000065811914],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009964115,0.000011036492,0.00013338108,0.00007134534,0.000028269817,0.000019441875,0.00006415131,0.000049894916,0.99848926,0.0007332797,0.00006250799,0.0002377991],"study_design_scores_gemma":[0.00079268235,0.00015882654,0.0005095626,0.000034474004,0.000015630556,0.000057756377,0.000015401407,0.00004490195,0.9911641,0.00094360864,0.0059443894,0.00031867248],"about_ca_topic_score_codex":0.000018864572,"about_ca_topic_score_gemma":0.0003081649,"teacher_disagreement_score":0.0073251575,"about_ca_system_score_codex":0.000065270026,"about_ca_system_score_gemma":0.000019177616,"threshold_uncertainty_score":0.9914108},"labels":[],"label_agreement":null},{"id":"W2127564328","doi":"10.1002/adma.200601368","title":"Synthesis and SERS Properties of Nanocrystalline Gold Octahedra Generated from Thermal Decomposition of HAuCl<sub>4</sub> in Block Copolymers","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":153,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Institute for Nanotechnology; University of Alberta","funders":"","keywords":"Copolymer; Materials science; Thermal decomposition; Nanocrystalline material; Monolayer; Octahedron; Colloidal gold; Polystyrene; Nanoparticle; Raman spectroscopy; Silicon; Chemical engineering; Decomposition; Nanotechnology; Crystallography; Organic chemistry; Chemistry; Optics; Crystal structure; Optoelectronics; Polymer; Composite material","score_opus":0.008199538040269943,"score_gpt":0.2064526064422603,"score_spread":0.19825306840199036,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2127564328","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989695,0.00035839315,0.000009154369,0.00007103629,0.0000714579,0.00023525821,0.0002208509,0.000028732478,0.000035641042],"genre_scores_gemma":[0.9988495,0.00007621951,0.00092237577,0.000014197249,0.00003339031,0.00006992943,0.000012776545,0.000016846041,0.0000047625153],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987385,0.00009281474,0.0005569617,0.0002539362,0.00015787,0.00019990571],"domain_scores_gemma":[0.99938667,0.00007106076,0.00024478592,0.00019025948,0.00007310322,0.000034148772],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020073172,0.00014724766,0.00037643552,0.00005512722,0.000043798893,0.00003079782,0.00011309061,0.0000584693,0.000049297974],"category_scores_gemma":[0.000026880794,0.00012263523,0.000030277724,0.00010446377,0.00013989271,0.00017152041,0.000040843166,0.000020034604,0.000005447723],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014469426,0.000119477576,0.00010243718,0.00004543689,0.0000061270034,0.0000016162096,0.000060600778,0.00059085904,0.9981112,0.00016530656,0.000007390377,0.00064483896],"study_design_scores_gemma":[0.00034571497,0.00002699714,0.001846171,0.00015613114,0.000026676462,0.0000017581483,0.000065948385,0.000038993927,0.997194,0.00014639355,0.000011590167,0.00013966177],"about_ca_topic_score_codex":0.00049104023,"about_ca_topic_score_gemma":0.000057954225,"teacher_disagreement_score":0.0017437338,"about_ca_system_score_codex":0.000021527241,"about_ca_system_score_gemma":0.000026251915,"threshold_uncertainty_score":0.50009197},"labels":[],"label_agreement":null},{"id":"W2127667163","doi":"10.1002/adma.201090036","title":"Photonic Sensors: Towards the Photonic Nose: A Novel Platform for Molecule and Bacteria Identification (Adv. Mater. 12/2010)","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic and Optical Devices","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Mount Sinai Hospital; University of Toronto","funders":"","keywords":"Materials science; Photonics; Nanoporous; Nanotechnology; Electronic nose; Photonic crystal; Molecule; Analyte; Optoelectronics; Optics; Chemistry; Organic chemistry; Chromatography","score_opus":0.015275479015011731,"score_gpt":0.24489480663206484,"score_spread":0.22961932761705312,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2127667163","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947083,0.00008095361,0.0009635896,0.00008075163,0.0021228208,0.0008490256,0.0003272772,0.00023090256,0.00063639984],"genre_scores_gemma":[0.99382937,0.00016004292,0.005079925,0.000090778354,0.00010591567,0.00039094518,0.00006749014,0.00006788083,0.000207674],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99869764,0.000008915073,0.0004154597,0.00030494697,0.00015781759,0.00041520878],"domain_scores_gemma":[0.999216,0.000084599975,0.00009404117,0.0004478275,0.00006618737,0.00009132053],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003624873,0.00026179425,0.00030604366,0.000044265642,0.00013098997,0.00021535071,0.00025049946,0.00014935456,0.00016801833],"category_scores_gemma":[0.000087092405,0.00019951838,0.000053235457,0.00006582371,0.00009290841,0.0003778555,0.00006163002,0.00012890165,0.000037491955],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005442291,0.000016198705,0.0000010095657,0.00016088769,0.00003072364,9.2608695e-7,0.0001131373,0.0000743989,0.99756634,0.0013072876,0.00003858822,0.0006360667],"study_design_scores_gemma":[0.0006749757,0.000034298828,0.0013288907,0.00003158085,0.000038625923,0.000025084097,0.00004544124,0.003166803,0.9840807,0.0007358456,0.009566723,0.00027105454],"about_ca_topic_score_codex":0.000027070526,"about_ca_topic_score_gemma":0.000061535284,"teacher_disagreement_score":0.013485677,"about_ca_system_score_codex":0.000041970237,"about_ca_system_score_gemma":0.000026532947,"threshold_uncertainty_score":0.8136124},"labels":[],"label_agreement":null},{"id":"W2127933435","doi":"10.1002/adma.200903484","title":"Solar‐Energy Production and Energy‐Efficient Lighting: Photovoltaic Devices and White‐Light‐Emitting Diodes Using Poly(2,7‐fluorene), Poly(2,7‐carbazole), and Poly(2,7‐dibenzosilole) Derivatives","year":2010,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":228,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Materials science; Carbazole; Fluorene; Photovoltaic system; Diode; White light; Optoelectronics; OLED; Light-emitting diode; Photochemistry; Polymer; Nanotechnology; Composite material","score_opus":0.012031847790898897,"score_gpt":0.24169254718851257,"score_spread":0.2296606993976137,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2127933435","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.034039468,0.96321297,0.0005254501,0.000019313724,0.0013037698,0.00038668377,0.00015912738,0.00028586297,0.00006733997],"genre_scores_gemma":[0.05342357,0.9416726,0.0035116891,0.000038680108,0.00068382546,0.00011426235,0.000110268484,0.00033408147,0.00011102539],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9961116,0.00015195744,0.0012101243,0.0011778503,0.00035294957,0.0009955387],"domain_scores_gemma":[0.9982214,0.00015639488,0.0006333264,0.000594765,0.000116921794,0.0002772037],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048178382,0.0012324473,0.0021104775,0.00039053938,0.00046333292,0.00044440676,0.00027865512,0.0006843577,0.00003245354],"category_scores_gemma":[0.0001628332,0.0011255956,0.00013267617,0.00040861676,0.00015979355,0.00038230896,0.0003120985,0.00048223545,0.0000013569971],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015743413,0.00003335755,0.000011933988,0.006774217,0.00021155633,0.00000975801,0.00026714164,0.00002883114,0.7481509,0.00024224457,0.000021629208,0.24423271],"study_design_scores_gemma":[0.00027341876,0.00008607565,0.000009369287,0.0059387363,0.0005635957,0.00025296648,0.000059179605,0.00055648136,0.63448364,0.00016229339,0.3561526,0.0014616611],"about_ca_topic_score_codex":0.00013918264,"about_ca_topic_score_gemma":0.00017539017,"teacher_disagreement_score":0.35613096,"about_ca_system_score_codex":0.00018237637,"about_ca_system_score_gemma":0.00015139555,"threshold_uncertainty_score":0.9991194},"labels":[],"label_agreement":null},{"id":"W2128189357","doi":"10.1002/1521-4095(200007)12:14<1071::aid-adma1071>3.0.co;2-j","title":"Panoscopic Silicon—A Material for “All” Length Scales","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Silicon; Photonics; Nanometre; Nanotechnology; Semiconductor; Fabrication; Micrometer; Optoelectronics; Electronics; Silicon photonics; Engineering physics; Electron; Optics; Electrical engineering; Physics; Engineering; Composite material","score_opus":0.009825720468132737,"score_gpt":0.26437438256459256,"score_spread":0.2545486620964598,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128189357","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944461,0.0001097179,0.000014412161,0.00013713758,0.0027298199,0.0008715261,0.0010831568,0.00024399915,0.0003641132],"genre_scores_gemma":[0.99528116,0.000102088045,0.00219537,0.0005690377,0.00054950424,0.00029257836,0.00012204449,0.00005689218,0.00083131314],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977736,0.00008153251,0.000570897,0.00062355056,0.00028118386,0.0006692533],"domain_scores_gemma":[0.99896586,0.00010774305,0.00015496103,0.000530318,0.00010225561,0.00013885072],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00029559806,0.00033473285,0.00051529583,0.000046540263,0.0001910032,0.00022892258,0.00046187188,0.00015249105,0.01914595],"category_scores_gemma":[0.000097006836,0.00029224026,0.000079994425,0.00008278729,0.00014755788,0.00038275842,0.000052456533,0.000041585292,0.00041342128],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00052948337,0.000030879542,0.000016235012,0.00008260903,0.000007086503,0.000003819395,0.000061780556,0.000021385289,0.99410313,0.0005122524,0.0007737742,0.0038575865],"study_design_scores_gemma":[0.00091918284,0.0001681238,0.00062436017,0.00003976838,0.000021193873,0.000018855888,0.000017071632,0.0000034755362,0.9625685,0.002050949,0.033212785,0.00035568635],"about_ca_topic_score_codex":0.0000726184,"about_ca_topic_score_gemma":0.000020931588,"teacher_disagreement_score":0.032439012,"about_ca_system_score_codex":0.000050126288,"about_ca_system_score_gemma":0.000044271696,"threshold_uncertainty_score":0.999953},"labels":[],"label_agreement":null},{"id":"W2128291255","doi":"10.1002/adma.201200448","title":"Stretchable Light‐Emitting Electrochemical Cells Using an Elastomeric Emissive Material","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":145,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Conformable matrix; Elastomer; Materials science; Fabrication; Ionic bonding; Stretchable electronics; Light emission; Nanotechnology; Optoelectronics; Electrochemistry; Composite material; Electrode; Electronics; Ion","score_opus":0.010782197589430945,"score_gpt":0.2316640370720412,"score_spread":0.22088183948261025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128291255","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919075,0.00011688218,0.0026298896,0.0000038275593,0.003626709,0.00019050781,0.000060229457,0.0008685501,0.0005959],"genre_scores_gemma":[0.9713811,0.000054260305,0.026669407,0.000037078175,0.0015149047,0.00003650258,0.00007172177,0.00017698885,0.000058028683],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975444,0.00008302347,0.00060761615,0.00034514672,0.00025417437,0.0011656355],"domain_scores_gemma":[0.99898607,0.000047113346,0.00015438508,0.00040494173,0.00007739741,0.0003300788],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00029099247,0.00046161233,0.0005877126,0.00009625008,0.00014844006,0.00012324823,0.00023202707,0.00019499978,0.0005814288],"category_scores_gemma":[0.00007441358,0.00047320483,0.00005341508,0.00017187324,0.000042190273,0.001195297,0.00006597482,0.00011141661,0.00007406341],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005310888,0.0000398888,0.000007953534,0.00010062617,0.000024716554,0.000004485536,0.00016706566,0.013837485,0.98535025,0.00008147611,0.00003277215,0.000300179],"study_design_scores_gemma":[0.0003119653,0.000043862616,0.000016888367,0.000061467916,0.000034091765,0.0000430763,0.00008903892,0.0002399434,0.9960965,0.00020458439,0.002290146,0.0005684728],"about_ca_topic_score_codex":0.000013117184,"about_ca_topic_score_gemma":6.868909e-7,"teacher_disagreement_score":0.024039516,"about_ca_system_score_codex":0.00019877059,"about_ca_system_score_gemma":0.00001921892,"threshold_uncertainty_score":0.99977195},"labels":[],"label_agreement":null},{"id":"W2128941127","doi":"10.1002/adma.200306458","title":"PbS Quantum Dots with Stable Efficient Luminescence in the Near‐IR Spectral Range","year":2004,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":231,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Nanocrystal; Materials science; Quantum dot; Luminescence; Quantum yield; Fabrication; Fluorescence; Polymer; Nanotechnology; Aqueous solution; Optoelectronics; Optics; Physical chemistry; Chemistry; Composite material","score_opus":0.01319136144332905,"score_gpt":0.22790058597526058,"score_spread":0.21470922453193153,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128941127","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969989,0.00039146552,0.00018513379,0.0007934487,0.00044736307,0.00054820854,0.0000395296,0.00008773396,0.00050818926],"genre_scores_gemma":[0.9970016,0.00005678504,0.002414089,0.0002332012,0.000090218644,0.000121602,0.000003863629,0.00003068122,0.00004797712],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979097,0.00016809511,0.00037665843,0.00043513827,0.00049681315,0.0006135723],"domain_scores_gemma":[0.9991247,0.00007406869,0.00016140612,0.00051245716,0.000069911155,0.00005746003],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.001095922,0.00026455216,0.00038822298,0.0000467376,0.00023608927,0.00033756386,0.00049595104,0.000055919572,0.0005358527],"category_scores_gemma":[0.00008875971,0.00014711625,0.00003443127,0.00021109285,0.00031601038,0.0003085812,0.00005751899,0.00007778279,0.0003114901],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00036546207,0.000121017365,0.00004803342,0.000056335575,0.0000026229036,0.00005054287,0.0009885762,0.004708554,0.9884654,0.005065015,0.00002873331,0.000099674864],"study_design_scores_gemma":[0.0009381211,0.00021418156,0.0029040063,0.00019708918,0.000012111336,0.000044398123,0.00055941864,0.000025135858,0.99230623,0.0010090955,0.0014857529,0.00030448317],"about_ca_topic_score_codex":0.00042808085,"about_ca_topic_score_gemma":0.0001126506,"teacher_disagreement_score":0.004683418,"about_ca_system_score_codex":0.00009745764,"about_ca_system_score_gemma":0.00011551822,"threshold_uncertainty_score":0.59992266},"labels":[],"label_agreement":null},{"id":"W2129123834","doi":"10.1002/adma.200601321","title":"Budded, Mesoporous Silica Hollow Spheres: Hierarchical Structure Controlled by Kinetic Self‐Assembly","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mesoporous Materials and Catalysis","field":"Materials Science","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Nankai University; Tianjin University; National Natural Science Foundation of China; National Science Foundation","keywords":"Mesoporous material; Lamellar structure; Materials science; SPHERES; Pulmonary surfactant; Mesoporous silica; Chemical engineering; Kinetic energy; Nanotechnology; Phase (matter); Morphology (biology); Organic chemistry; Chemistry; Composite material; Catalysis; Physics; Geology","score_opus":0.002544362267962665,"score_gpt":0.20694946532897174,"score_spread":0.20440510306100906,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129123834","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9929061,0.0008174094,0.00020842343,0.00022107977,0.0017666459,0.0010730202,0.001050992,0.0006128867,0.0013434689],"genre_scores_gemma":[0.9904487,0.000063071755,0.006537563,0.0003983321,0.0006728275,0.00022972326,0.00044429672,0.00011975837,0.0010857417],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99498343,0.00044588622,0.001444031,0.0011033751,0.00093727343,0.0010860135],"domain_scores_gemma":[0.9976831,0.00019571395,0.0006732283,0.0009911455,0.0002200227,0.00023679552],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006788791,0.0007126172,0.001682164,0.00009413976,0.00032165617,0.000533236,0.0007512642,0.00031884518,0.00938506],"category_scores_gemma":[0.00019740591,0.00057269546,0.00019700604,0.0002363987,0.00018586493,0.0004249186,0.00019401855,0.00013014447,0.00046875823],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00081909646,0.00019256466,0.000014644354,0.00009497646,0.000039111474,0.000043630112,0.000051057075,0.00014075954,0.988636,0.0011927936,0.008559951,0.00021540544],"study_design_scores_gemma":[0.005280123,0.00018133658,0.00010591078,0.000037905484,0.00015837116,0.000047212212,0.00005799743,0.000009403794,0.97684115,0.005322631,0.011277943,0.00068003836],"about_ca_topic_score_codex":0.00047025798,"about_ca_topic_score_gemma":0.00012679197,"teacher_disagreement_score":0.011794883,"about_ca_system_score_codex":0.0001311199,"about_ca_system_score_gemma":0.00011202511,"threshold_uncertainty_score":0.9996725},"labels":[],"label_agreement":null},{"id":"W2129757832","doi":"10.1002/adma.201200587","title":"Hybrid Organic/Inorganic Optical Up‐Converter for Pixel‐Less Near‐Infrared Imaging","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Waterloo","funders":"","keywords":"Materials science; Pixel; Optoelectronics; Near-infrared spectroscopy; Infrared; Substrate (aquarium); Diode; Image resolution; OLED; Optics; Nanotechnology","score_opus":0.019151472958690057,"score_gpt":0.2483397382916623,"score_spread":0.22918826533297226,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129757832","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848536,0.00072690647,0.008124629,0.00025657157,0.004775301,0.0005445292,0.00014251992,0.00023709801,0.00033882912],"genre_scores_gemma":[0.98892754,0.00004500815,0.009025477,0.0005276694,0.0005410007,0.0001500405,0.000023799179,0.000099469755,0.0006600041],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99758244,0.000112623304,0.00057995564,0.0004435232,0.0003113688,0.0009700892],"domain_scores_gemma":[0.9986914,0.0001984655,0.0001926746,0.0005335221,0.00017314592,0.0002108162],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0009962348,0.00033503192,0.0005528107,0.000044310545,0.0003175113,0.0003648713,0.0004018557,0.00006757576,0.0049206717],"category_scores_gemma":[0.00045522742,0.00026990485,0.00008239988,0.000057349414,0.00017740566,0.0010719036,0.00017073736,0.0000596302,0.0011244176],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018876515,0.00005331356,0.00006526413,0.000096840486,0.0000098656765,0.0000015242177,0.00029176509,7.060448e-7,0.99133974,0.0011913739,0.00091863103,0.0058422303],"study_design_scores_gemma":[0.0006082528,0.00004881099,0.00019232668,0.000054519114,0.00004530733,0.00004006558,0.00017349198,0.000030896146,0.9666704,0.001420432,0.030299444,0.00041606053],"about_ca_topic_score_codex":0.000012563801,"about_ca_topic_score_gemma":0.0000013646429,"teacher_disagreement_score":0.029380813,"about_ca_system_score_codex":0.00009122256,"about_ca_system_score_gemma":0.00008656312,"threshold_uncertainty_score":0.9999753},"labels":[],"label_agreement":null},{"id":"W2130773209","doi":"10.1002/adma.200801836","title":"Ultrathin Nanowires—A Materials Chemistry Perspective","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanowire Synthesis and Applications","field":"Engineering","cited_by":369,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University of Toronto; Canada Research Chairs","keywords":"Nanotechnology; Nanowire; Chemical vapor deposition; Materials science; Perspective (graphical); Field (mathematics); Scale (ratio); Biochemical engineering; Yield (engineering); Computer science; Physics; Engineering; Artificial intelligence","score_opus":0.007980937171646916,"score_gpt":0.21644203590473665,"score_spread":0.20846109873308974,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2130773209","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9890065,0.00024432156,0.0002632559,0.00007086332,0.00040081094,0.00022312767,0.00018908088,0.0005377655,0.009064274],"genre_scores_gemma":[0.9965818,0.00041985704,0.0018692036,0.000027736072,0.00023204366,0.00018221662,0.000022919767,0.000057396723,0.0006068205],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990319,0.000017040062,0.00029688948,0.0002355581,0.00014622082,0.00027241829],"domain_scores_gemma":[0.99944067,0.000034963236,0.000050151924,0.00032733037,0.00007911909,0.000067772984],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00010567329,0.0002028265,0.00029440783,0.000023201992,0.00012153782,0.00003272238,0.00016934761,0.00008910387,0.0013475983],"category_scores_gemma":[0.000055648372,0.00019924862,0.000037871567,0.000093578165,0.000057773465,0.00015890457,0.000021263182,0.000043678512,0.00027535012],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000008798692,0.000018371155,0.000001182636,0.00003593436,0.00001737935,0.000007197957,0.00015138774,0.00013940338,0.9977333,0.0010226952,0.0006943289,0.00017005419],"study_design_scores_gemma":[0.00018926842,0.0000060362313,0.00013150614,0.000023497136,0.0000079204365,0.000035036584,0.00008857863,0.0000024407598,0.99003935,0.0009229393,0.008317082,0.00023636817],"about_ca_topic_score_codex":0.00001709698,"about_ca_topic_score_gemma":9.22117e-7,"teacher_disagreement_score":0.008457454,"about_ca_system_score_codex":0.00011578048,"about_ca_system_score_gemma":0.000023465238,"threshold_uncertainty_score":0.9995653},"labels":[],"label_agreement":null},{"id":"W2132336772","doi":"10.1002/adma.200690074","title":"Inside Front Cover: Curling Colloidal Photonic Crystals (Adv. Mater. 18/2006)","year":2006,"lang":"en","type":"paratext","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"","keywords":"Curling; Materials science; Overlayer; Curvature; Photonic crystal; Colloidal crystal; Front cover; Infiltration (HVAC); Polymer; Electron microscope; Composite material; Colloid; Nanotechnology; Optics; Optoelectronics; Chemical engineering; Cover (algebra); Condensed matter physics; Geometry","score_opus":0.009564776198454845,"score_gpt":0.267910736772351,"score_spread":0.25834596057389614,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2132336772","genre_codex":"other","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.33420327,0.002106352,0.0066965637,0.00012552152,0.0067357346,0.0042766347,0.047087587,0.0002927226,0.5984756],"genre_scores_gemma":[0.76956636,0.0002816258,0.0019217107,0.00016882042,0.0018179644,0.001669821,0.0088482695,0.00028444303,0.21544102],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99621683,0.00009380617,0.0012383759,0.0010403653,0.0004552447,0.00095536956],"domain_scores_gemma":[0.9974866,0.000097440265,0.0010057534,0.0010185444,0.00021144137,0.0001802095],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00025891155,0.00088972034,0.0014170504,0.000134175,0.0003621386,0.00041101364,0.00058282097,0.00030092607,0.051081337],"category_scores_gemma":[0.000007165892,0.0009016806,0.00029013772,0.00015611922,0.00012157789,0.0002999612,0.0002731042,0.00031723172,0.0077462466],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000060092927,0.00018088068,0.000006152428,0.00017258093,0.00013622837,0.0000039571696,0.00003831701,0.001937167,0.75865346,0.00068705255,0.23768665,0.0004374665],"study_design_scores_gemma":[0.00073394715,0.000030495485,0.0000104998,0.00020522629,0.00007218824,0.0000024319252,0.00004091232,0.000007188371,0.41160896,0.0017880144,0.5848252,0.00067488453],"about_ca_topic_score_codex":0.0012376582,"about_ca_topic_score_gemma":0.000016671107,"teacher_disagreement_score":0.43536305,"about_ca_system_score_codex":0.00026454323,"about_ca_system_score_gemma":0.0004153601,"threshold_uncertainty_score":0.9993434},"labels":[],"label_agreement":null},{"id":"W2134605996","doi":"10.1002/adma.201202846","title":"Small Silicon, Big Opportunities: The Development and Future of Colloidally‐Stable Monodisperse Silicon Nanocrystals","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":93,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Silicon; Dispersity; Nanotechnology; Nanocrystal; Optoelectronics; Polymer chemistry","score_opus":0.03328052482336269,"score_gpt":0.23768002047249803,"score_spread":0.20439949564913534,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2134605996","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99463797,0.0018781116,0.000006139071,0.00014617213,0.0020938714,0.0005447452,0.00014646321,0.000057658897,0.00048884866],"genre_scores_gemma":[0.9973013,0.0003859315,0.0010462775,0.00028354136,0.0004076999,0.00009699956,0.000017609093,0.00003299265,0.00042769342],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980043,0.00013544808,0.0006618306,0.00032150728,0.00029035218,0.00058653194],"domain_scores_gemma":[0.9986665,0.00013628103,0.00037740418,0.00047810815,0.00015870392,0.0001829554],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008616188,0.00030455377,0.00048190707,0.000059049453,0.0002414437,0.00009651213,0.000357364,0.00012212982,0.0006023213],"category_scores_gemma":[0.000071815586,0.00020997782,0.000041277664,0.00011873046,0.0002283958,0.00031008746,0.00018559876,0.0000575034,0.00001631701],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000113181544,0.000037196212,0.00022677133,0.00013689768,0.000011408723,0.0000016987873,0.0020298997,0.0000037731902,0.99112666,0.0016540785,0.00010147115,0.0045569856],"study_design_scores_gemma":[0.00039852702,0.000041489213,0.0017793607,0.000044561286,0.00001937246,0.0000229752,0.002322275,5.666888e-7,0.92412096,0.00009765148,0.07089504,0.0002571944],"about_ca_topic_score_codex":0.00008102729,"about_ca_topic_score_gemma":0.000044827553,"teacher_disagreement_score":0.07079356,"about_ca_system_score_codex":0.00004650449,"about_ca_system_score_gemma":0.00014846849,"threshold_uncertainty_score":0.85626465},"labels":[],"label_agreement":null},{"id":"W2135376149","doi":"10.1002/adma.200290004","title":"Oriented Free‐Standing Three‐Dimensional Silicon Inverted Colloidal Photonic Crystal Microfibers","year":2002,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Microfiber; Materials science; Photonic crystal; Colloidal crystal; Photonics; Yablonovite; Nanotechnology; Silicon; Optoelectronics; Colloid; Optics; Photonic integrated circuit; Composite material; Physics","score_opus":0.011050250391155253,"score_gpt":0.22998452158391378,"score_spread":0.21893427119275852,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135376149","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942807,0.00007984968,0.00083782,0.00012799873,0.00034213788,0.00051253435,0.00081869744,0.00009586705,0.0029043856],"genre_scores_gemma":[0.99745,0.000005422285,0.001304924,0.000093435,0.00012449424,0.00017444491,0.00014906237,0.000037380596,0.00066086405],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985556,0.000026391146,0.00038267486,0.00039554478,0.0002241178,0.00041569784],"domain_scores_gemma":[0.9990922,0.000052937565,0.00018089479,0.00046249272,0.00008840396,0.00012305552],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011385454,0.00024242449,0.00031821022,0.000053568747,0.00025602826,0.000064564025,0.00021882138,0.000052057985,0.0075027538],"category_scores_gemma":[0.000010906483,0.0002374107,0.00008615474,0.00019891078,0.00008384465,0.00020325348,0.00012659573,0.00008704763,0.00011092859],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030661977,0.000107628926,0.00014795478,0.000008718707,0.000043830703,0.0000014534037,0.000060084218,0.00006362246,0.99170434,0.0055045546,0.0018986997,0.00042845032],"study_design_scores_gemma":[0.001915572,0.000042182346,0.00014514902,0.000044959972,0.000034946974,0.000003962103,0.00010242192,0.00034199166,0.9688193,0.005861644,0.022309264,0.0003785676],"about_ca_topic_score_codex":0.0001558631,"about_ca_topic_score_gemma":0.000019199255,"teacher_disagreement_score":0.022885002,"about_ca_system_score_codex":0.00008703564,"about_ca_system_score_gemma":0.00003413999,"threshold_uncertainty_score":0.9934045},"labels":[],"label_agreement":null},{"id":"W2135880155","doi":"10.1002/adma.201570266","title":"Supercapacitors: Cellulose Nanocrystal Aerogels as Universal 3D Lightweight Substrates for Supercapacitor Materials (Adv. Mater. 40/2015)","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Materials science; Supercapacitor; Nanocrystal; Nanotechnology; Cellulose; Composite material; Chemical engineering; Electrochemistry; Electrode","score_opus":0.02042740780858922,"score_gpt":0.2568762864377193,"score_spread":0.23644887862913008,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135880155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97836924,0.00024842276,0.0004009319,0.00029843274,0.014807948,0.0020278178,0.0024956716,0.0007619043,0.0005896577],"genre_scores_gemma":[0.98080695,0.00008569561,0.013325773,0.00022941853,0.0027777948,0.0007024307,0.000727612,0.00025950756,0.0010847975],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9933704,0.0005669881,0.0017435695,0.0015523771,0.0011133519,0.0016533119],"domain_scores_gemma":[0.99612814,0.0002677016,0.0005281378,0.0012335691,0.0011246583,0.0007178172],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0022547753,0.0010980091,0.0015389157,0.0003002068,0.00042699504,0.001107122,0.0011061939,0.00059587,0.006039128],"category_scores_gemma":[0.00058689975,0.0009953824,0.0001950602,0.00031169987,0.00050637044,0.0028213914,0.00024977993,0.00012568456,0.002420768],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0017293593,0.00021972753,0.000020911046,0.00023777848,0.000044809458,0.000033666813,0.0013767811,0.000015693873,0.9891181,0.003497085,0.0036189363,0.00008717005],"study_design_scores_gemma":[0.0027283607,0.00074298825,0.000060888447,0.00015681109,0.00011833195,0.00010346432,0.0014780029,0.0000042081633,0.9657939,0.0030651428,0.024507882,0.0012399846],"about_ca_topic_score_codex":0.0004742905,"about_ca_topic_score_gemma":0.000018447967,"teacher_disagreement_score":0.023324147,"about_ca_system_score_codex":0.0006088207,"about_ca_system_score_gemma":0.0004155493,"threshold_uncertainty_score":0.99992985},"labels":[],"label_agreement":null},{"id":"W2136796315","doi":"10.1002/adma.201001310","title":"Designed Organophosphonate Self‐Assembled Monolayers Enhance Device Performance of Pentacene‐Based Organic Thin‐Film Transistors","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"","keywords":"Pentacene; Materials science; Monolayer; Thin-film transistor; Transistor; Stacking; Optoelectronics; Self-assembled monolayer; Thin film; Nanotechnology; Dielectric; Layer (electronics); Organic chemistry; Electrical engineering; Chemistry","score_opus":0.003627123489924593,"score_gpt":0.1991716534768742,"score_spread":0.19554452998694963,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136796315","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996797,0.0002119079,0.00052462163,0.000020577769,0.0013771312,0.00041285396,0.000020516945,0.00045287344,0.00018250366],"genre_scores_gemma":[0.99400914,0.00039062402,0.005273813,0.00005872517,0.00004748634,0.000037888403,0.000013229949,0.0001357456,0.00003336325],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983251,0.000030604908,0.00053432677,0.0003164157,0.0002742296,0.0005193364],"domain_scores_gemma":[0.9990079,0.000072939045,0.0001458383,0.00050360727,0.0001570746,0.000112637164],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00033491847,0.00035311526,0.00048409085,0.00008258622,0.00009458438,0.000035702255,0.00037587623,0.00018969334,0.00078453036],"category_scores_gemma":[0.000034548284,0.00036666932,0.00005934409,0.00034519983,0.000019536143,0.00027236104,0.000022738172,0.00024461944,0.0000581584],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007959779,0.00004323917,0.000047611426,0.00029682863,0.00004427881,0.0000022015404,0.00019467734,0.0030248242,0.9960713,0.00004425748,0.00003621321,0.0001150049],"study_design_scores_gemma":[0.00067495747,0.00013846568,0.00020462449,0.000040707993,0.000048576407,0.0000043128553,0.000015343709,0.0018839361,0.9953605,0.00005094224,0.0011752924,0.0004023464],"about_ca_topic_score_codex":0.00002155292,"about_ca_topic_score_gemma":0.00009480363,"teacher_disagreement_score":0.004749191,"about_ca_system_score_codex":0.0001368073,"about_ca_system_score_gemma":0.00016652253,"threshold_uncertainty_score":0.9998785},"labels":[],"label_agreement":null},{"id":"W2137679121","doi":"10.1002/adma.200700854","title":"Field‐Induced Carrier Generation in Conjugated Polymer Semiconductors for Dynamic, Asymmetric Junctions","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"","keywords":"Materials science; Polypyrrole; Electrode; Nanometre; Nanotechnology; Semiconductor; Composite number; Field (mathematics); Conjugated system; Electronics; Conductive polymer; Polymer; Optoelectronics; Electrical engineering; Composite material; Physics","score_opus":0.024811877401333157,"score_gpt":0.3101576097397806,"score_spread":0.28534573233844746,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2137679121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99415964,0.0001416317,0.001956964,0.00029765337,0.0024162289,0.00062348816,0.00011065767,0.00009974202,0.00019400485],"genre_scores_gemma":[0.99678636,0.000011355714,0.0017879998,0.00030231237,0.00021036432,0.00019769401,0.00009506112,0.00003110458,0.0005777514],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984364,0.000037599988,0.00053032883,0.00041787303,0.0001544673,0.00042333],"domain_scores_gemma":[0.999128,0.0001621857,0.0001848862,0.00031625983,0.00012335519,0.00008535477],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00066881086,0.00018071671,0.000265071,0.00022298735,0.00019256749,0.000075254975,0.00015680792,0.00012607494,0.00043894362],"category_scores_gemma":[0.0002630181,0.00017824434,0.000045613288,0.00038587183,0.000026230971,0.0002650523,0.0000365944,0.00006087534,0.000034995966],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005289252,0.000035019613,0.000014880021,0.000010672114,0.0000042408988,9.936142e-7,0.000097893775,0.000011632051,0.9964048,0.00058347016,0.00022024002,0.0025632682],"study_design_scores_gemma":[0.00059876096,0.000082054925,0.0001203213,0.000010366142,0.000015472328,0.0000046664813,0.00015918179,0.000017034643,0.9968518,0.0002206356,0.0017025877,0.00021713639],"about_ca_topic_score_codex":0.00028848267,"about_ca_topic_score_gemma":0.00035195547,"teacher_disagreement_score":0.0026267273,"about_ca_system_score_codex":0.00011945535,"about_ca_system_score_gemma":0.00006154187,"threshold_uncertainty_score":0.72685933},"labels":[],"label_agreement":null},{"id":"W2138513904","doi":"10.1002/adma.200602099","title":"<b>Competitive Hydrogen Bonding in π‐Stacked Oligomers</b>","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Crystallography and molecular interactions","field":"Chemistry","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal; Regroupement Québécois sur les Matériaux de Pointe","funders":"","keywords":"Intermolecular force; Hydrogen bond; Materials science; Molecule; Flexibility (engineering); Chemical physics; Hydrogen; Crystallography; Nanotechnology; Chemistry; Organic chemistry","score_opus":0.006966015187375434,"score_gpt":0.2655698739089834,"score_spread":0.25860385872160796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2138513904","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93391895,0.000064621854,0.00010753374,0.000031886393,0.00021527977,0.000069325004,0.000050558152,0.00008319273,0.06545866],"genre_scores_gemma":[0.99827844,0.000025213336,0.0007616107,0.00007659553,0.0000741842,0.000022481976,0.000059696056,0.000024455796,0.0006772966],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99897563,0.000011724099,0.00031070338,0.0002369651,0.00013200087,0.0003329428],"domain_scores_gemma":[0.9995369,0.0000665179,0.00009412524,0.0002012827,0.00003915053,0.00006206125],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00019990638,0.00013872243,0.0001891951,0.00012794344,0.000053357417,0.000025018202,0.000110156536,0.000076883785,0.0012125651],"category_scores_gemma":[0.00007064903,0.00015133878,0.000061948675,0.00014414058,0.000039873485,0.00014563918,0.00004241918,0.000085637315,0.00002658379],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009475652,0.000044673507,0.00008207169,0.000029361549,0.000016825381,0.00008303477,0.00014904981,0.0000093522785,0.98081183,0.01809888,0.000012395835,0.00056776806],"study_design_scores_gemma":[0.0004379664,0.000009045961,0.00016540306,0.00007090996,0.000007920313,0.00001699291,0.0006505023,2.3131096e-7,0.91909736,0.0008841712,0.07850507,0.00015441714],"about_ca_topic_score_codex":0.000045276654,"about_ca_topic_score_gemma":0.00014852565,"teacher_disagreement_score":0.07849268,"about_ca_system_score_codex":0.00009341489,"about_ca_system_score_gemma":0.000013899011,"threshold_uncertainty_score":0.9997005},"labels":[],"label_agreement":null},{"id":"W2141260580","doi":"10.1002/adma.201500116","title":"Throwing New Light on the Reduction of CO<sub>2</sub>","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Photocatalysis Techniques","field":"Energy","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Fossil fuel; Greenhouse gas; Lead (geology); Natural resource economics; Demise; Carbon capture and storage (timeline); Materials science; Environmental science; Climate change; Nanotechnology; Waste management; Economics; Engineering; Political science","score_opus":0.024123637509168412,"score_gpt":0.2856753405116457,"score_spread":0.2615517030024773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141260580","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98968107,0.00007423404,0.0010032199,0.00040643525,0.00057057914,0.0004514027,0.000011631254,0.00030934872,0.00749207],"genre_scores_gemma":[0.99594706,0.0000662317,0.0032274202,0.00012483778,0.00025381226,0.00009384962,0.000028888042,0.000052845728,0.00020503979],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99861264,0.000107655265,0.00042451787,0.00028496404,0.00033091556,0.00023927892],"domain_scores_gemma":[0.99877924,0.00006625414,0.0002885269,0.000654894,0.00012633202,0.00008477045],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004240211,0.00020129078,0.00034499,0.00007354922,0.00006231265,0.000024959698,0.00025095287,0.00008780277,0.00007874467],"category_scores_gemma":[0.00030039353,0.00014777,0.0000602132,0.00018829477,0.00006228547,0.00031543456,0.000055703553,0.000075366785,0.00012181859],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015731753,0.000027258791,6.557606e-7,0.000009658548,0.000021510263,0.00000149597,0.00023100931,0.00068099546,0.9792001,0.012089452,0.0026516102,0.0049289395],"study_design_scores_gemma":[0.00028153646,0.00011604929,0.000008503505,0.000064815744,0.000018296427,0.00000599975,0.00013208015,0.0000010083182,0.94478,0.03778615,0.016649364,0.0001562299],"about_ca_topic_score_codex":0.000083832485,"about_ca_topic_score_gemma":0.000010281852,"teacher_disagreement_score":0.03442013,"about_ca_system_score_codex":0.00011711779,"about_ca_system_score_gemma":0.000056326724,"threshold_uncertainty_score":0.6025886},"labels":[],"label_agreement":null},{"id":"W2142266743","doi":"10.1002/adma.200501714","title":"Highly Ordered Organic Alq<sub>3</sub> Chiral Luminescent Thin Films Fabricated by Glancing‐Angle Deposition","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Optical Coatings and Gratings","field":"Materials Science","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Photoexcitation; Thin film; Luminescence; Deposition (geology); Optoelectronics; Nanotechnology; Optics; Excitation","score_opus":0.004892620300620501,"score_gpt":0.21319826614253906,"score_spread":0.20830564584191857,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142266743","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99623144,0.00012548795,0.0010403332,0.00055994914,0.00067507935,0.00045502625,0.00016847285,0.00041660888,0.0003275813],"genre_scores_gemma":[0.9855727,0.00003566495,0.01276034,0.0008337496,0.00024425323,0.00007319786,0.00019354225,0.00006733016,0.00021924674],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99737555,0.000111069196,0.00074119313,0.0006296187,0.00045428093,0.0006883017],"domain_scores_gemma":[0.99878216,0.0000698847,0.00036847332,0.0003892969,0.00021072847,0.00017948479],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004243092,0.0003637653,0.0004920771,0.00005385074,0.00027220804,0.0002798986,0.00032017473,0.00015249423,0.0008231595],"category_scores_gemma":[0.00030258356,0.0003220143,0.000059367656,0.00024493018,0.0000891483,0.00064367783,0.00014338807,0.00010356201,0.00096116256],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009563921,0.00012343151,0.00001160488,0.00004301464,0.000006550396,0.000005551292,0.000119938806,0.000045008575,0.99573874,0.00028498803,0.0026011302,0.0009243995],"study_design_scores_gemma":[0.0008821811,0.00018041926,0.00015876969,0.00007277322,0.00002855875,0.000016319396,0.000037713206,0.00009052221,0.99673414,0.00037870556,0.0009942249,0.00042567175],"about_ca_topic_score_codex":0.000043937922,"about_ca_topic_score_gemma":0.000034051747,"teacher_disagreement_score":0.011720007,"about_ca_system_score_codex":0.00013113275,"about_ca_system_score_gemma":0.000047152516,"threshold_uncertainty_score":0.99992317},"labels":[],"label_agreement":null},{"id":"W2144167148","doi":"10.1002/adma.201001855","title":"Endothelial Cell Guidance in 3D Patterned Scaffolds","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Scaffold; Agarose; Nanotechnology; In vivo; Biomedical engineering; Biology; Molecular biology; Biotechnology; Engineering","score_opus":0.005945754435559516,"score_gpt":0.2486406360246772,"score_spread":0.2426948815891177,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144167148","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99307287,0.00004137422,0.0004016577,0.000040423096,0.0018368359,0.00018301874,0.00003531822,0.00021935465,0.004169121],"genre_scores_gemma":[0.9889813,0.000044817683,0.010369342,0.000042449,0.00021810127,0.00006746314,0.000006287633,0.000045181547,0.00022505451],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987543,0.000029188393,0.0003018675,0.00020211384,0.00027853687,0.00043394312],"domain_scores_gemma":[0.999426,0.00009713783,0.000027550268,0.00032327764,0.000034302666,0.00009174612],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005128839,0.00013976602,0.00019945936,0.00009004749,0.000021096097,0.000044389133,0.000300843,0.00011557728,0.0012123793],"category_scores_gemma":[0.00019050494,0.00013732749,0.000019696416,0.00010386178,0.000056842695,0.000118754135,0.00008060174,0.00013090947,0.00038623158],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012368496,0.000015149149,0.00025608324,0.00009476978,0.0000021824994,0.000014314141,0.000032726144,0.00013524835,0.9910505,0.00006673405,0.00011917989,0.008200759],"study_design_scores_gemma":[0.0005023108,0.000014546977,0.0038215343,0.000034437777,0.0000011267382,0.00000218426,0.0000030745414,0.00014175042,0.9817211,0.00042119884,0.013182572,0.00015416146],"about_ca_topic_score_codex":0.000028772401,"about_ca_topic_score_gemma":0.000034254037,"teacher_disagreement_score":0.013063392,"about_ca_system_score_codex":0.00004280786,"about_ca_system_score_gemma":0.000019162655,"threshold_uncertainty_score":0.99970067},"labels":[],"label_agreement":null},{"id":"W2144423156","doi":"10.1002/adma.201001455","title":"Strong Efficiency Improvements in Ultra‐low‐Cost Inorganic Nanowire Solar Cells","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanowire Synthesis and Applications","field":"Engineering","cited_by":196,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; Yükseköğretim Kurulu; Council for Higher Education; Deutsche Forschungsgemeinschaft; Deutscher Akademischer Austauschdienst; International Copper Association","keywords":"Materials science; Nanowire; Nanotechnology; Solar cell; Optoelectronics","score_opus":0.003868339757282706,"score_gpt":0.20990897955405535,"score_spread":0.20604063979677265,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144423156","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962494,0.000019813922,0.000925247,0.000016670941,0.0010577063,0.000481636,0.000076834884,0.00018048173,0.0009922101],"genre_scores_gemma":[0.9984265,0.000067012224,0.0011168665,0.000018126153,0.00008554742,0.00017103889,0.000013389526,0.00004824114,0.000053310596],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895537,0.000012004559,0.00033576772,0.00022260103,0.00012570016,0.00034853566],"domain_scores_gemma":[0.9994904,0.000032845197,0.00004778127,0.00033931184,0.000027322805,0.00006237039],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017493026,0.00017605798,0.00021679762,0.000072139854,0.000056511966,0.00004851786,0.00021822323,0.000088498906,0.0003729082],"category_scores_gemma":[0.000026924345,0.00017509784,0.000027584934,0.00016167207,0.000023902712,0.00018183123,0.000023182269,0.00011348681,0.00019365188],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000025817012,0.000039619885,0.00002074013,0.000038325223,0.00000396757,0.0000010087382,0.000038918002,0.00040978318,0.99003816,0.00018364064,0.000030072428,0.009193171],"study_design_scores_gemma":[0.00029514832,0.000008403889,0.0004438355,0.00002430392,0.000004560926,7.602464e-7,0.000022943908,0.000060671973,0.9947295,0.00010100291,0.0041153175,0.00019354984],"about_ca_topic_score_codex":0.000017105845,"about_ca_topic_score_gemma":0.000051865696,"teacher_disagreement_score":0.008999621,"about_ca_system_score_codex":0.00004568135,"about_ca_system_score_gemma":0.00001817592,"threshold_uncertainty_score":0.7140283},"labels":[],"label_agreement":null},{"id":"W2145929043","doi":"10.1002/adma.201301947","title":"25th Anniversary Article: Colloidal Quantum Dot Materials and Devices: A Quarter‐Century of Advances","year":2013,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":478,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"University of Toronto","funders":"","keywords":"Quantum dot; Materials science; Nanotechnology; Quarter (Canadian coin); Engineering physics; Optoelectronics; Physics","score_opus":0.00954127310567678,"score_gpt":0.22621957098490925,"score_spread":0.21667829787923246,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2145929043","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99410444,0.003376004,0.0000147638075,0.00016805514,0.00108642,0.0006313564,0.00025822181,0.000119903365,0.0002408386],"genre_scores_gemma":[0.9963982,0.00087547343,0.0022351823,0.00013996518,0.000116294774,0.00012110915,0.00001187058,0.000039107665,0.00006280507],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974075,0.00028307727,0.00082432653,0.00051090395,0.00043952922,0.0005346395],"domain_scores_gemma":[0.998512,0.00011602665,0.00046211403,0.00041564798,0.00031685646,0.00017735291],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00074067543,0.00034086365,0.0007726263,0.000092972885,0.00014196591,0.00024883912,0.00031691472,0.0001132269,0.0031527504],"category_scores_gemma":[0.00017747139,0.00026379846,0.00004158772,0.00012873084,0.00031001645,0.0016504952,0.00015504894,0.000044799166,0.0003612443],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027862925,0.00006830722,0.00008206479,0.00028902452,0.000013598085,0.000004578256,0.0005553885,0.000011878815,0.99599564,0.0012809662,0.00042853263,0.0009913775],"study_design_scores_gemma":[0.00066959485,0.00029120926,0.0011793601,0.00018472792,0.000032068474,0.000016993421,0.0017448214,0.000007935231,0.9886689,0.002263653,0.004581222,0.0003595241],"about_ca_topic_score_codex":0.00026737864,"about_ca_topic_score_gemma":0.000011702068,"teacher_disagreement_score":0.007326764,"about_ca_system_score_codex":0.00004731909,"about_ca_system_score_gemma":0.00007369917,"threshold_uncertainty_score":0.9999814},"labels":[],"label_agreement":null},{"id":"W2150642776","doi":"10.1002/adma.200801508","title":"Spatially Localized Photoluminescence at 1.5 Micrometers Wavelength in Direct Laser Written Optical Nanostructures","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nonlinear Optical Materials Studies","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photoluminescence; Materials science; Refractive index; Wavelength; Photoresist; Laser; Nanostructure; Photonics; Optoelectronics; Erbium; Optics; Nanotechnology; Doping","score_opus":0.00789489161789615,"score_gpt":0.20874167420758993,"score_spread":0.2008467825896938,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2150642776","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99681413,0.000120412435,0.000039412636,0.000039396673,0.0011851419,0.00035831096,0.00011134126,0.0003204199,0.0010114217],"genre_scores_gemma":[0.9815462,0.0005407188,0.017408999,0.000077552686,0.00012836813,0.000076729615,0.000029309436,0.00008117766,0.00011091577],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981984,0.000051769694,0.00056452566,0.00036337922,0.0002489533,0.0005729915],"domain_scores_gemma":[0.99935967,0.00012083477,0.00005082074,0.0003067182,0.000058884212,0.000103060884],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014553861,0.0003502724,0.0006877503,0.00009881788,0.00008706723,0.000030283312,0.00020382753,0.00012491253,0.00033519682],"category_scores_gemma":[0.00024474988,0.00032273994,0.000052013555,0.0001586308,0.00018631456,0.00016066898,0.00014765355,0.00007920557,0.0001425916],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016585717,0.0000235729,0.0001486759,0.000116872696,0.000026304453,0.00013254063,0.000101850084,0.0005783276,0.9982606,0.000012779512,0.00016528716,0.00026729624],"study_design_scores_gemma":[0.0009473145,0.00004762242,0.0030960185,0.00007062051,0.000012189703,0.0000488093,0.000009427542,0.00007563432,0.9935874,0.000052199874,0.0016640553,0.00038876006],"about_ca_topic_score_codex":0.000033798162,"about_ca_topic_score_gemma":0.00007215096,"teacher_disagreement_score":0.017369585,"about_ca_system_score_codex":0.00018532787,"about_ca_system_score_gemma":0.000016859482,"threshold_uncertainty_score":0.99992245},"labels":[],"label_agreement":null},{"id":"W2152205186","doi":"10.1002/adma.201503054","title":"3D RuO<sub>2</sub> Microsupercapacitors with Remarkable Areal Energy","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":227,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Agence Nationale de la Recherche","keywords":"Materials science; Ruthenium oxide; Capacitance; Area density; Electrode; Ruthenium; Oxide; Optoelectronics; Solid-state; Energy storage; Supercapacitor; Nanotechnology; Energy density; Energy (signal processing); Electrochemistry; Engineering physics; Composite material; Metallurgy; Catalysis; Physical chemistry","score_opus":0.012679558852109175,"score_gpt":0.21256633172631417,"score_spread":0.199886772874205,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2152205186","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99308115,0.00013899452,0.0012098136,0.00009800389,0.0034446612,0.0002814887,0.00018689962,0.00034932134,0.0012096645],"genre_scores_gemma":[0.98962075,0.00009123447,0.008669318,0.00032536223,0.0007973531,0.00020066496,0.00010673009,0.000094964445,0.0000936119],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99704546,0.00022652383,0.0006307881,0.00072780094,0.000647056,0.0007223895],"domain_scores_gemma":[0.9981966,0.000064078966,0.00024077985,0.0007271477,0.00045669262,0.00031469058],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00086861866,0.00043460936,0.0006195215,0.00011492621,0.00019514789,0.00033992963,0.0003955822,0.00017744437,0.00036548253],"category_scores_gemma":[0.0001628019,0.0003517996,0.00004623597,0.00022393893,0.00023823798,0.0010613704,0.00011288669,0.000059404003,0.00049113896],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00047688244,0.00007054855,0.000034259094,0.000034437257,0.000011030098,0.000017890992,0.00025653618,0.000073439434,0.9958989,0.0006170987,0.001715227,0.0007937261],"study_design_scores_gemma":[0.001059986,0.00027419341,0.000117460775,0.00007781523,0.000030338244,0.00007821354,0.00025979694,0.00000385356,0.98597276,0.0009255471,0.010683194,0.0005168588],"about_ca_topic_score_codex":0.00022331822,"about_ca_topic_score_gemma":0.000044533004,"teacher_disagreement_score":0.009926181,"about_ca_system_score_codex":0.00024508004,"about_ca_system_score_gemma":0.00017513463,"threshold_uncertainty_score":0.9998934},"labels":[],"label_agreement":null},{"id":"W2155269126","doi":"10.1002/(sici)1521-095(200005)12:9<675::aid-dma675>3.0.co;2-","title":"New (Inter)Faces: Polymers and Inorganic Materials","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Mesoporous Materials and Catalysis","field":"Materials Science","cited_by":112,"is_retracted":false,"has_abstract":false,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Polymer; Polymer science; Nanotechnology; Composite material","score_opus":0.005544764791781268,"score_gpt":0.22118582643343732,"score_spread":0.21564106164165606,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155269126","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9951987,0.0004632142,0.0001006679,0.00025182482,0.0015004916,0.00038521623,0.0002923908,0.0003058188,0.0015016297],"genre_scores_gemma":[0.9868984,0.00062118785,0.003464076,0.00046874458,0.0004402566,0.00005167316,0.00007997764,0.00008746938,0.007888195],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970642,0.0001876285,0.0008548268,0.0007973721,0.0003883665,0.0007076591],"domain_scores_gemma":[0.99864507,0.000048602036,0.00026589457,0.000682521,0.000060407838,0.0002974962],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000697052,0.0004605472,0.0008336437,0.00008702172,0.00021342421,0.0005443812,0.00045442287,0.00012938661,0.19738631],"category_scores_gemma":[0.00006298141,0.00040236363,0.00005204871,0.00015214166,0.00012808257,0.0007100511,0.00015669093,0.000047535425,0.002967215],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024634963,0.000024512858,0.0000054671063,0.00006936133,0.000017478758,0.0000146762795,0.00024350187,0.000003998373,0.98685306,0.0002863674,0.0008856466,0.011349559],"study_design_scores_gemma":[0.00080536917,0.00009546861,0.0002134088,0.00007033646,0.000058808397,0.000059895687,0.00007930264,2.098895e-7,0.9815036,0.0013520048,0.015282343,0.00047927073],"about_ca_topic_score_codex":0.0007954044,"about_ca_topic_score_gemma":0.000031653333,"teacher_disagreement_score":0.19441909,"about_ca_system_score_codex":0.000063105836,"about_ca_system_score_gemma":0.00008501827,"threshold_uncertainty_score":0.9998428},"labels":[],"label_agreement":null},{"id":"W2155401216","doi":"10.1002/adma.201200928","title":"Substrate‐Free Fabrication of Self‐Supporting ZnO Nanowire Arrays","year":2012,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Materials science; Fabrication; Nanowire; Substrate (aquarium); Piezoelectricity; Nanotechnology; Hydrothermal circulation; Optoelectronics; Thin film; Composite material; Chemical engineering","score_opus":0.011363445080507734,"score_gpt":0.23385982671398853,"score_spread":0.2224963816334808,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155401216","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99049455,0.00015399474,0.0031833742,0.000007956385,0.0019194465,0.0001674063,0.00006090145,0.0006901319,0.003322222],"genre_scores_gemma":[0.9724016,0.000094580304,0.026920548,0.000014891005,0.00034620895,0.000038727234,0.000042703818,0.00007169073,0.000069006855],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984503,0.000040813105,0.0006329952,0.00016588591,0.00019099211,0.00051900593],"domain_scores_gemma":[0.99907666,0.000056840046,0.00020994939,0.0004418762,0.000105460844,0.00010919877],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036694712,0.00023403724,0.00039498985,0.00006600326,0.00005743691,0.000025178839,0.00020344263,0.000095198724,0.00020277864],"category_scores_gemma":[0.00023132615,0.00023500483,0.00004277221,0.00012710558,0.000030964315,0.00062819285,0.00004084134,0.00004648936,0.000047978076],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012354931,0.000024782054,0.00014636473,0.00021134739,0.00002198433,9.950683e-7,0.00023565869,0.008521278,0.98868865,0.0014176812,0.00010466595,0.00061426824],"study_design_scores_gemma":[0.00029443545,0.000019481358,0.0018404626,0.00004913295,0.000021614194,0.000008455962,0.000066721674,0.00002651072,0.9942647,0.0010391609,0.0021118189,0.00025749215],"about_ca_topic_score_codex":0.000008579513,"about_ca_topic_score_gemma":0.0000013608034,"teacher_disagreement_score":0.023737174,"about_ca_system_score_codex":0.00006265425,"about_ca_system_score_gemma":0.000011018987,"threshold_uncertainty_score":0.9583219},"labels":[],"label_agreement":null},{"id":"W2156368223","doi":"10.1002/adma.200601332","title":"Perfecting Imperfection—Designer Defects in Colloidal Photonic Crystals","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":85,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft; Fundación Ramón Areces","keywords":"Materials science; Nanotechnology; Photonic crystal; Planar; Biomolecule; Colloidal crystal; Photonics; Characterization (materials science); Colloid; Optoelectronics; Structural coloration; Computer science; Chemical engineering","score_opus":0.004909386798477334,"score_gpt":0.23535600551611874,"score_spread":0.2304466187176414,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2156368223","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9877471,0.00004483153,0.00092430686,0.000024555953,0.00017555157,0.00051156775,0.000078365025,0.0000645001,0.010429274],"genre_scores_gemma":[0.99821925,0.000003540579,0.0005600937,0.000023384058,0.00019485768,0.00042812174,0.000057267855,0.000030311647,0.00048317586],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987961,0.000047624304,0.0003535289,0.00031869105,0.00012054761,0.00036352084],"domain_scores_gemma":[0.9994674,0.00007318041,0.00013768762,0.00023111101,0.000049472295,0.00004119195],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002488804,0.00018278067,0.00026956425,0.00006359192,0.00015242546,0.000081688,0.00010361382,0.000040579005,0.0011490653],"category_scores_gemma":[0.000007906119,0.0001816578,0.00006314418,0.00020843983,0.00003063435,0.00018439682,0.000041616862,0.00007389721,0.00005068147],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015295303,0.00009739908,0.0011801937,0.000010787284,0.0000059971953,0.0000010455454,0.00002820652,0.0007334327,0.99110484,0.0063000717,0.00011993425,0.00040281747],"study_design_scores_gemma":[0.00079684955,0.000027687405,0.002617372,0.000026495072,0.000010904979,0.0000021942487,0.00011292713,0.000020774403,0.97906387,0.011334568,0.005745858,0.0002405071],"about_ca_topic_score_codex":0.000871577,"about_ca_topic_score_gemma":0.000058151032,"teacher_disagreement_score":0.012040957,"about_ca_system_score_codex":0.000086430904,"about_ca_system_score_gemma":0.00005775746,"threshold_uncertainty_score":0.999764},"labels":[],"label_agreement":null},{"id":"W2157244617","doi":"10.1002/adma.200902605","title":"Selectively Transparent and Conducting Photonic Crystals","year":2009,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photonic crystal; Optoelectronics; Visible spectrum; Photonics; Electrical conductor; Infrared; Nanoparticle; Optics; Nanotechnology; Composite material","score_opus":0.03003526751661205,"score_gpt":0.29273517818218314,"score_spread":0.2626999106655711,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2157244617","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99395347,0.00006996046,0.0017345421,0.0001533203,0.000052039548,0.0002815802,0.00010276888,0.000045200177,0.0036071036],"genre_scores_gemma":[0.9985247,0.000014348475,0.0011339079,0.00006430792,0.00006684849,0.000058839672,0.000024317984,0.000009858223,0.00010285854],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999288,0.000017036293,0.0001932234,0.00022347346,0.000073268086,0.00020499321],"domain_scores_gemma":[0.9996686,0.000022662603,0.00008398052,0.00013030099,0.000038998725,0.000055482928],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010040828,0.00012126155,0.00019587435,0.000018443156,0.00011989996,0.000049619663,0.00006453913,0.000018288594,0.00043298234],"category_scores_gemma":[0.0000033186454,0.000114202936,0.000025134417,0.000063118554,0.00002451216,0.0001371385,0.000010402201,0.000040976727,0.000006614739],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009997373,0.00003697772,0.00002061757,0.000004177536,0.0000098452765,2.4358528e-7,0.0001083161,0.000020956812,0.98322755,0.01007247,0.000024639565,0.006464195],"study_design_scores_gemma":[0.00042203607,0.000043265365,0.00077060534,0.000018501654,0.000014514264,0.0000018202617,0.00016950292,0.000007747811,0.9706193,0.023318863,0.0044569657,0.00015687238],"about_ca_topic_score_codex":0.000024812358,"about_ca_topic_score_gemma":9.161328e-7,"teacher_disagreement_score":0.013246394,"about_ca_system_score_codex":0.0000160721,"about_ca_system_score_gemma":0.000023962744,"threshold_uncertainty_score":0.4740853},"labels":[],"label_agreement":null},{"id":"W2157370667","doi":"10.1002/adma.201570087","title":"Phototransistors: Giant Photoamplification in Indirect‐Bandgap Multilayer MoS<sub>2</sub> Phototransistors with Local Bottom‐Gate Structures (Adv. Mater. 13/2015)","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Band gap; Optoelectronics","score_opus":0.01708779223969688,"score_gpt":0.2524451992496851,"score_spread":0.23535740700998822,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2157370667","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99252516,0.00018200147,0.003055663,0.00018248035,0.0012366873,0.001653854,0.0005905305,0.00041133486,0.00016228603],"genre_scores_gemma":[0.99108374,0.00010233371,0.0070250463,0.00024257059,0.00016495383,0.0010015403,0.00019097232,0.00014794544,0.00004088227],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9955359,0.00028808744,0.0012027536,0.0011961005,0.0007961899,0.0009809333],"domain_scores_gemma":[0.99765265,0.000076011354,0.0005522967,0.0009698987,0.0003481607,0.00040095294],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011009941,0.0007184523,0.001026262,0.00025933748,0.00022341227,0.00030319655,0.0005995196,0.00030747,0.00041422076],"category_scores_gemma":[0.00007554213,0.00060592114,0.00008093305,0.00042921535,0.00039607473,0.00080125954,0.00008186335,0.00018781585,0.00031572435],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00088570756,0.00016675817,0.000044810047,0.00014415968,0.000017775566,0.000027830063,0.00093088404,0.0021723767,0.99466836,0.00021306526,0.00024006501,0.0004881782],"study_design_scores_gemma":[0.0024095436,0.0001664536,0.0019266818,0.00015887374,0.000057139532,0.000045068544,0.00030305464,0.000043077725,0.9904455,0.0014387129,0.002197053,0.0008088522],"about_ca_topic_score_codex":0.00083565206,"about_ca_topic_score_gemma":0.00057834206,"teacher_disagreement_score":0.004222901,"about_ca_system_score_codex":0.000475744,"about_ca_system_score_gemma":0.0002789025,"threshold_uncertainty_score":0.9996392},"labels":[],"label_agreement":null},{"id":"W2166118779","doi":"10.1002/adma.200700039","title":"A Facile Synthesis Route to Prepare Microtubes from Phosphate Glass Fibres","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Bone Tissue Engineering Materials","field":"Engineering","cited_by":33,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Materials science; Dissolution; Fabrication; Amorphous solid; Raman spectroscopy; Nanotechnology; Phosphate; Chemical engineering; Phosphate glass; Amorphous calcium phosphate; Degradation (telecommunications); Calcium; Organic chemistry; Optoelectronics; Optics; Metallurgy; Chemistry","score_opus":0.006165970654958104,"score_gpt":0.21557872230855507,"score_spread":0.20941275165359696,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166118779","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9861355,0.0004272732,0.007572278,0.000036399626,0.0024271884,0.0004932399,0.0011056985,0.001343373,0.00045905617],"genre_scores_gemma":[0.9756398,0.000050387265,0.023401326,0.00004112833,0.00028184766,0.00016818849,0.000049179635,0.00013652132,0.00023161879],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99820346,0.000023961029,0.0005505321,0.00037426167,0.00022384989,0.00062392437],"domain_scores_gemma":[0.99900997,0.0001774705,0.000051698757,0.0005251865,0.000050039504,0.0001856637],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003604923,0.00037164264,0.00054692116,0.00010245492,0.0000507796,0.000121243305,0.00028909004,0.00012842343,0.0009774858],"category_scores_gemma":[0.00019311142,0.0003943917,0.000050145827,0.00013959692,0.000019876152,0.00027537323,0.00009017133,0.00004531848,0.0006265284],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000083678075,0.000009239066,0.00001170786,0.00009632584,0.000053924414,0.000025949494,0.00025406107,0.011838802,0.98214096,0.000035495043,0.0010460769,0.004403764],"study_design_scores_gemma":[0.00020397086,0.000022769022,0.001046476,0.00016074334,0.000022446116,0.0000041217613,0.000029734643,0.000017610337,0.94823647,0.00012324171,0.049693875,0.00043855913],"about_ca_topic_score_codex":0.00011680082,"about_ca_topic_score_gemma":0.0000558696,"teacher_disagreement_score":0.0486478,"about_ca_system_score_codex":0.00016833539,"about_ca_system_score_gemma":0.000010274131,"threshold_uncertainty_score":0.99993575},"labels":[],"label_agreement":null},{"id":"W2166609816","doi":"10.1002/adma.200802123","title":"Tailoring the Electrical Properties of Inverse Silicon Opals ‐ A Step Towards Optically Amplified Silicon Solar Cells","year":2008,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Silicon; Optoelectronics; Photonic crystal; Hybrid silicon laser; Photonics; Solar cell; Inverse; Energy conversion efficiency; Silicon photonics; Omnidirectional antenna; Crystalline silicon; Antenna (radio)","score_opus":0.02208348602092056,"score_gpt":0.2387867701415384,"score_spread":0.21670328412061785,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166609816","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968962,0.000040199677,0.0011469823,0.00009908153,0.00009747417,0.0005484592,0.000068217974,0.000035472276,0.0010679025],"genre_scores_gemma":[0.99855703,0.00004636937,0.00082337414,0.000054661017,0.000116260366,0.00023297063,0.00001063328,0.000021979351,0.00013671158],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99879795,0.000050171464,0.00041191635,0.00024769528,0.00018944808,0.0003028343],"domain_scores_gemma":[0.9992446,0.000044263525,0.00017288416,0.00036352675,0.00010743109,0.000067347726],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017952584,0.0001745099,0.00033297393,0.000029575507,0.00018045907,0.00003371018,0.00024904066,0.00003743426,0.00022370565],"category_scores_gemma":[0.000019114528,0.00012114911,0.000080146456,0.00013333533,0.00014035564,0.00013287258,0.000088654735,0.00008489777,0.00003057317],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051734616,0.00009232589,0.00003853864,0.000017075463,0.000027955572,6.1497116e-7,0.00022509255,0.000094400944,0.99392664,0.003992178,0.00006997595,0.0014634489],"study_design_scores_gemma":[0.00038501073,0.00004951124,0.00019156343,0.000025351692,0.000020788699,0.000001309515,0.00017885763,0.00007271124,0.99521327,0.00070888037,0.0030020871,0.00015066944],"about_ca_topic_score_codex":0.0002041052,"about_ca_topic_score_gemma":0.000002462346,"teacher_disagreement_score":0.0032832976,"about_ca_system_score_codex":0.000025776466,"about_ca_system_score_gemma":0.00011056296,"threshold_uncertainty_score":0.49403173},"labels":[],"label_agreement":null},{"id":"W2166767008","doi":"10.1002/adma.200600090","title":"Strong Electroluminescence from Polymer Films with Heavily Quenched Photoluminescence","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Electroluminescence; Photoluminescence; Materials science; Polymer; Doping; Optoelectronics; Nanotechnology; Composite material","score_opus":0.006587672974273566,"score_gpt":0.22359283618924447,"score_spread":0.2170051632149709,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166767008","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99667376,0.00036603276,0.0010421048,0.00021436857,0.0003590143,0.0003416042,0.0002125142,0.00024889476,0.0005417276],"genre_scores_gemma":[0.9904321,0.000009068241,0.007921965,0.00013026792,0.00023048384,0.00020263295,0.00010109977,0.000043287826,0.0009291122],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979795,0.00005082825,0.0004281509,0.00064202276,0.0003425618,0.00055689225],"domain_scores_gemma":[0.99888223,0.00007366347,0.0002660303,0.0005790433,0.00011236555,0.00008666497],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015440707,0.00028856745,0.00036916396,0.000045515717,0.00022312421,0.00016655332,0.00035728407,0.000071578914,0.0019913367],"category_scores_gemma":[0.000024063187,0.00024576052,0.000036646095,0.00021134305,0.00018384139,0.0003756661,0.00005855295,0.00006927746,0.00019909277],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000080984566,0.0000606889,0.00020285076,0.000009404059,0.000003958615,0.0000064067276,0.000026945268,0.000012911149,0.99860066,0.00057985116,0.00029625086,0.000119075994],"study_design_scores_gemma":[0.00050973764,0.00006199246,0.0009827386,0.000051890223,0.000024281064,0.000012479585,0.00006488423,0.0000039356632,0.99725556,0.0002033464,0.0004879699,0.0003411729],"about_ca_topic_score_codex":0.0046056453,"about_ca_topic_score_gemma":0.00024192025,"teacher_disagreement_score":0.0068798596,"about_ca_system_score_codex":0.00004978405,"about_ca_system_score_gemma":0.00008999787,"threshold_uncertainty_score":0.99999946},"labels":[],"label_agreement":null},{"id":"W2166768027","doi":"10.1002/1521-4095(200009)12:18<1339::aid-adma1339>3.0.co;2-t","title":"Synthesis and Magnetic Tuning in Superparamagnetic Cobaltocene-Mesoporous Niobium Oxide Composites","year":2000,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Porphyrin and Phthalocyanine Chemistry","field":"Materials Science","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec; University of Windsor","funders":"National Science Foundation","keywords":"Cobaltocene; Superparamagnetism; Materials science; Mesoporous material; Oxide; Paramagnetism; Niobium; Niobium oxide; Composite material; Chemical engineering; Nanotechnology; Magnetization; Condensed matter physics; Metallurgy; Metallocene; Polymerization; Organic chemistry; Polymer; Magnetic field; Catalysis","score_opus":0.006355782980243065,"score_gpt":0.22000928412097423,"score_spread":0.21365350114073117,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166768027","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99514204,0.00087418285,0.0000036225576,0.00008229754,0.00014527497,0.00022389935,0.00007713219,0.00011219247,0.0033393458],"genre_scores_gemma":[0.99493694,0.0002770033,0.0038670301,0.00013589543,0.000052905954,0.00008442936,0.00001257523,0.000033069908,0.00060017343],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982447,0.000101901824,0.0004612374,0.00047547373,0.00021755704,0.00049912423],"domain_scores_gemma":[0.9992254,0.00017487521,0.00007645205,0.00035025855,0.000035820824,0.00013719802],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00035897136,0.00027079406,0.0004463908,0.00005360298,0.000093945964,0.00013720368,0.00026683605,0.000098035074,0.008047627],"category_scores_gemma":[0.00009822543,0.00026749287,0.000025582109,0.00012084326,0.00016656416,0.0002503672,0.00007338635,0.000069092035,0.00023427841],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012093862,0.00004608581,0.0004459273,0.000090811984,0.0000016687592,0.000057226236,0.000077147895,0.000088435656,0.9969752,0.00004976636,0.00004800303,0.0019988266],"study_design_scores_gemma":[0.0005362636,0.000062240855,0.0063806796,0.00013988819,0.000014087967,0.00013050911,0.000045806773,0.000018544992,0.9911134,0.00040963074,0.00082858297,0.00032033116],"about_ca_topic_score_codex":0.000187426,"about_ca_topic_score_gemma":0.000013706874,"teacher_disagreement_score":0.007813349,"about_ca_system_score_codex":0.000053150135,"about_ca_system_score_gemma":0.000033543485,"threshold_uncertainty_score":0.9999777},"labels":[],"label_agreement":null},{"id":"W2167544918","doi":"10.1002/adma.201570247","title":"Batteries: Flexible High‐Energy Polymer‐Electrolyte‐Based Rechargeable Zinc–Air Batteries (Adv. Mater. 37/2015)","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Electrolyte; Polymer; Energy density; Battery (electricity); Energy storage; Nanotechnology; Zinc; Polymer electrolytes; Porosity; Chemical engineering; Electrode; Composite material; Engineering physics; Metallurgy; Ionic conductivity","score_opus":0.02645008508993627,"score_gpt":0.2806788509074915,"score_spread":0.2542287658175552,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2167544918","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9852466,0.0006111819,0.00441136,0.0038769855,0.0030014263,0.0003934091,0.0005372983,0.00091012503,0.0010116419],"genre_scores_gemma":[0.9818742,0.000043498676,0.007825253,0.0022421037,0.00048988604,0.00058661966,0.00023350723,0.00012766421,0.0065772366],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9964761,0.00019449071,0.0008199046,0.0009143299,0.0005635384,0.0010316363],"domain_scores_gemma":[0.9976985,0.000110874586,0.00045781466,0.0011110601,0.00026204254,0.00035973545],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006812421,0.0005347751,0.0007434111,0.00013491976,0.0003836547,0.0003224903,0.0006714412,0.00018085583,0.004105848],"category_scores_gemma":[0.00011350855,0.0005028615,0.00008406675,0.0003503194,0.00025543387,0.0008040819,0.00022251008,0.0000922283,0.0008593765],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025607416,0.00008695516,0.000008226829,0.00004912079,0.000012285565,0.0000075036764,0.000099910154,0.00006139626,0.9878151,0.0043454915,0.006750124,0.0005078441],"study_design_scores_gemma":[0.0009856496,0.00020509405,0.000018900124,0.00006346604,0.00003404737,0.000020505457,0.00015188496,0.000004233525,0.9511617,0.003926017,0.04283849,0.00059004506],"about_ca_topic_score_codex":0.0009708161,"about_ca_topic_score_gemma":0.000032887434,"teacher_disagreement_score":0.0366534,"about_ca_system_score_codex":0.00019487266,"about_ca_system_score_gemma":0.00030613088,"threshold_uncertainty_score":0.9999186},"labels":[],"label_agreement":null},{"id":"W2167883817","doi":"10.1002/adma.201502853","title":"Flexible High‐Energy Polymer‐Electrolyte‐Based Rechargeable Zinc–Air Batteries","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":324,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Electrolyte; Materials science; Battery (electricity); Flexibility (engineering); Zinc; Electrode; Energy storage; Polymer; Energy density; Nanotechnology; Bifunctional; Engineering physics; Composite material; Catalysis; Metallurgy; Engineering","score_opus":0.021487602258476655,"score_gpt":0.26036174907694365,"score_spread":0.238874146818467,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2167883817","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7487457,0.0029974508,0.22179581,0.0019071718,0.004022904,0.0008459876,0.0003887701,0.011886781,0.0074094157],"genre_scores_gemma":[0.98281324,0.0001596597,0.014436024,0.000360822,0.00014655206,0.00034160222,0.00010220554,0.00015704996,0.0014828544],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997659,0.000059093225,0.00043634884,0.00043197247,0.0004563686,0.0009571847],"domain_scores_gemma":[0.99869883,0.00008248404,0.00007589206,0.00080480234,0.00015360849,0.00018440925],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025780482,0.00039085431,0.0005143817,0.00026078022,0.00009117928,0.00007279446,0.0005420344,0.0002055694,0.00042893336],"category_scores_gemma":[0.0001659407,0.0003917252,0.000046119778,0.00042954212,0.00012309423,0.00059283694,0.00015338743,0.00016630325,0.00023861641],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014111727,0.000024246865,0.000006611219,0.00006428512,0.000026408321,0.000023413762,0.000011593176,0.009081319,0.9770172,0.0034888242,0.0034982355,0.0066166935],"study_design_scores_gemma":[0.0008297123,0.00017049418,0.000013108131,0.000037814196,0.000007130425,0.000009236099,0.000036288533,0.00015950664,0.95980704,0.009555965,0.028946858,0.0004268595],"about_ca_topic_score_codex":0.000052174328,"about_ca_topic_score_gemma":0.000010271211,"teacher_disagreement_score":0.23406753,"about_ca_system_score_codex":0.00037962693,"about_ca_system_score_gemma":0.00008296236,"threshold_uncertainty_score":0.9998535},"labels":[],"label_agreement":null},{"id":"W2168759549","doi":"10.1002/adma.201001946","title":"Near‐Infrared Inorganic/Organic Optical Upconverter with an External Power Efficiency of &gt;100%","year":2010,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute for Microstructural Sciences; University of Toronto; University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; University of Waterloo","keywords":"Photon upconversion; Optoelectronics; Materials science; Infrared; Heterojunction; Diode; Photodiode; Power (physics); Tandem; Luminescence; Optics; Physics","score_opus":0.0045428343524155385,"score_gpt":0.22973477581093169,"score_spread":0.22519194145851615,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2168759549","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99532765,0.000038474675,0.0017006185,0.000018455135,0.00086841086,0.00028479283,0.000023815277,0.00031504378,0.0014227589],"genre_scores_gemma":[0.9755378,0.00001023376,0.024053387,0.000025753361,0.00009583001,0.000014851354,0.000007313311,0.00012445611,0.00013038104],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980912,0.000036402722,0.00046035647,0.00034980002,0.0005037211,0.00055848557],"domain_scores_gemma":[0.9987284,0.00007217618,0.00007391735,0.00074684375,0.00017337581,0.00020528042],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003477988,0.00027650438,0.0004173838,0.000085287335,0.0000676389,0.0001250178,0.0005032794,0.00017307037,0.0038782847],"category_scores_gemma":[0.00015630013,0.00023353435,0.00003384672,0.00023789835,0.00017600361,0.0004387988,0.00010278721,0.00028240407,0.00020872203],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007374551,0.000066679015,0.00013488934,0.000074250194,0.000023916844,0.000017344451,0.00030909336,0.000020691,0.9987872,0.00033072868,0.000027427332,0.00013399232],"study_design_scores_gemma":[0.00079630275,0.00030812668,0.0014967852,0.000045380664,0.000015034699,0.00005072429,0.000037142636,0.00021263526,0.99629647,0.000111063724,0.00033416858,0.00029614943],"about_ca_topic_score_codex":0.0000054766665,"about_ca_topic_score_gemma":0.0000074601135,"teacher_disagreement_score":0.022352768,"about_ca_system_score_codex":0.000058960795,"about_ca_system_score_gemma":0.00009202657,"threshold_uncertainty_score":0.9970323},"labels":[],"label_agreement":null},{"id":"W2168883641","doi":"10.1002/adma.200401230","title":"Tunable Luminescence from a Silicon‐Rich Oxide Microresonator","year":2005,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silicon Nanostructures and Photoluminescence","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Optoelectronics; Luminescence; Silicon; Fabrication; Oxide; Semiconductor; Thin film; Cadmium oxide; Infrared; Silicon oxide; Wavelength; Nanotechnology; Optics; Cadmium","score_opus":0.006369726177951457,"score_gpt":0.22878147471169785,"score_spread":0.2224117485337464,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2168883641","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99631,0.0007960719,0.00002773245,0.00025352289,0.001231344,0.0004113516,0.00043507048,0.00025992544,0.0002750061],"genre_scores_gemma":[0.9898278,0.00007634247,0.007851176,0.0010050324,0.00043000453,0.00009016652,0.00004768978,0.000052934935,0.0006188618],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99733883,0.00009485416,0.0006374582,0.0007928123,0.00043544604,0.000700613],"domain_scores_gemma":[0.9984481,0.00014282078,0.0002750662,0.00075465144,0.0001821069,0.00019727001],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00030874327,0.0003831107,0.00055510004,0.00006774584,0.0001859095,0.0002080097,0.00068739516,0.00015512046,0.008076164],"category_scores_gemma":[0.0002611382,0.0003444695,0.000066487584,0.00019502053,0.00015898907,0.0006459461,0.00018874712,0.000089489295,0.0013391301],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014845502,0.000043296786,0.00027972844,0.000022856142,0.0000056347326,0.000013007879,0.00012674878,0.000030974108,0.9970294,0.0002102842,0.001273147,0.0008164167],"study_design_scores_gemma":[0.0006915924,0.00003332699,0.0040303697,0.000059395366,0.00001782374,0.00002049146,0.000050235936,0.00000945282,0.9740125,0.00047234178,0.020171179,0.0004313021],"about_ca_topic_score_codex":0.00048908684,"about_ca_topic_score_gemma":0.000071669565,"teacher_disagreement_score":0.023016961,"about_ca_system_score_codex":0.00011579319,"about_ca_system_score_gemma":0.00008876099,"threshold_uncertainty_score":0.99990076},"labels":[],"label_agreement":null},{"id":"W2169055580","doi":"10.1002/adma.200501210","title":"Ultraporous Nanosheath Materials by Layer‐by‐Layer Deposition onto Co‐continuous Polymer‐Blend Templates","year":2006,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"","keywords":"Materials science; Polymer; Template; Porosity; Polyelectrolyte; Layer (electronics); Chemical engineering; Copolymer; Microstructure; Solvent; Layer by layer; Nanotechnology; Composite material; Organic chemistry","score_opus":0.008582497559264643,"score_gpt":0.26450319529888733,"score_spread":0.25592069773962267,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2169055580","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98538405,0.0033580437,0.00032019644,0.00034459328,0.003796782,0.00067044934,0.0037174558,0.0006411056,0.0017673272],"genre_scores_gemma":[0.9932356,0.00023916391,0.00083239924,0.0004078652,0.00034493802,0.0003128762,0.00051359786,0.00013213156,0.003981427],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99526,0.0003400674,0.0014429865,0.0010799518,0.0007263506,0.0011506544],"domain_scores_gemma":[0.9979475,0.00022111456,0.0007804483,0.00067842886,0.00020446882,0.00016801685],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0005977976,0.0007484437,0.0011581172,0.00012895366,0.0005018366,0.0006061551,0.0004808439,0.0002503296,0.0042818114],"category_scores_gemma":[0.00006622851,0.0007008733,0.00010770911,0.00016525868,0.0002191756,0.0013589412,0.00012941915,0.00010496447,0.0013729403],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037491324,0.00020489491,0.00007223399,0.000058044352,0.00004184758,0.00002339274,0.00009648358,0.000008275511,0.9707648,0.000105425104,0.027996939,0.00025272305],"study_design_scores_gemma":[0.0010897085,0.00018790894,0.00018439903,0.00011560893,0.00006390291,0.00009379066,0.00018449232,3.1768033e-7,0.98741406,0.00022110603,0.00965991,0.0007848142],"about_ca_topic_score_codex":0.004715069,"about_ca_topic_score_gemma":0.00012352325,"teacher_disagreement_score":0.01833703,"about_ca_system_score_codex":0.00025176987,"about_ca_system_score_gemma":0.000054251956,"threshold_uncertainty_score":0.99954426},"labels":[],"label_agreement":null},{"id":"W2177045592","doi":"10.1002/adma.201570291","title":"Biomimicry: Smart Muscle‐Driven Self‐Cleaning of Biomimetic Microstructures from Liquid Crystal Elastomers (Adv. Mater. 43/2015)","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Adhesion, Friction, and Surface Interactions","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Biomimetics; Elastomer; Nanotechnology; Artificial muscle; Scrolling; Microstructure; Biomimetic materials; Adhesive; Parylene; Smart material; Composite material; Layer (electronics); Liquid crystal; Actuator; Optoelectronics; Polymer; Computer science","score_opus":0.008727797984876762,"score_gpt":0.23219694925064266,"score_spread":0.2234691512657659,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2177045592","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99336445,0.00024209694,0.0010640604,0.000029302368,0.0037951984,0.00023279706,0.00043204837,0.00053203787,0.00030802176],"genre_scores_gemma":[0.98634976,0.00015197383,0.013045867,0.000023349607,0.00015245388,0.000019864561,0.00010633641,0.000093157694,0.00005722744],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984295,0.00006723847,0.00059414277,0.00030748433,0.00022902725,0.00037263788],"domain_scores_gemma":[0.9990608,0.00007823136,0.00016325265,0.00036624048,0.00016777495,0.00016371957],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014568078,0.00031831066,0.00047144445,0.00018107066,0.00008636106,0.00005983518,0.00021347679,0.00015239793,0.00035675647],"category_scores_gemma":[0.00006188752,0.00031687555,0.000081985185,0.00017862572,0.00006542888,0.00044705183,0.00006503601,0.000090658265,0.00012586454],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013710024,0.000025480418,0.00007678117,0.000053090065,0.00009144219,0.00000450285,0.0010147328,0.004988225,0.9924717,0.000022522572,0.0009999292,0.00011447311],"study_design_scores_gemma":[0.0007256666,0.00013360358,0.0010333944,0.000092926595,0.000059767783,0.000012210122,0.00065584073,0.00016367195,0.9802189,0.00023162489,0.016316952,0.00035543047],"about_ca_topic_score_codex":0.00018934972,"about_ca_topic_score_gemma":0.00003066825,"teacher_disagreement_score":0.015317023,"about_ca_system_score_codex":0.00017765767,"about_ca_system_score_gemma":0.00004069156,"threshold_uncertainty_score":0.99992836},"labels":[],"label_agreement":null},{"id":"W2178987782","doi":"10.1002/adma.201503461","title":"Structure‐Tuned Lead Halide Perovskite Nanocrystals","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":252,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Halide; Nanocrystal; Perovskite (structure); Materials science; Metal; Inorganic chemistry; Nanotechnology; Chemical engineering; Chemistry; Metallurgy","score_opus":0.014088440160841523,"score_gpt":0.23313476395291208,"score_spread":0.21904632379207056,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2178987782","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99387234,0.00022392641,0.0010888192,0.0000734071,0.0012989985,0.00027871507,0.0004265244,0.00061782065,0.0021194564],"genre_scores_gemma":[0.99383277,0.00004805442,0.005230931,0.000084799576,0.00027064575,0.000085757,0.00011829083,0.00007073778,0.00025801777],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988076,0.00002909653,0.0003703141,0.00023435194,0.00020518395,0.00035341745],"domain_scores_gemma":[0.99928546,0.000019826435,0.000058745194,0.00040005372,0.00009376145,0.00014214074],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016258196,0.00024083484,0.00033731273,0.000053980966,0.000057452366,0.00012547943,0.00020739506,0.00009192984,0.00034434957],"category_scores_gemma":[0.00005411009,0.00022634648,0.000031614512,0.00010817018,0.000038813712,0.00027590696,0.000050107123,0.000045879453,0.00022145004],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015392216,0.0000071572017,0.000003652161,0.000040074752,0.000012999412,0.00000313862,0.000104005216,0.0020085527,0.99438155,0.0008090178,0.0017159655,0.00089846796],"study_design_scores_gemma":[0.00046660364,0.000021921622,0.0001215266,0.000021671307,0.000011837292,0.0000131421375,0.000046823483,0.00003070234,0.94500583,0.0038263036,0.05015672,0.00027690202],"about_ca_topic_score_codex":0.000016793496,"about_ca_topic_score_gemma":0.00001241407,"teacher_disagreement_score":0.04937573,"about_ca_system_score_codex":0.000091065245,"about_ca_system_score_gemma":0.000023460016,"threshold_uncertainty_score":0.92301416},"labels":[],"label_agreement":null},{"id":"W2236563805","doi":"10.1002/adma.201503598","title":"Living Cell Factories ‐ Electrosprayed Microcapsules and Microcarriers for Minimally Invasive Delivery","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrohydrodynamics and Fluid Dynamics","field":"Engineering","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trinity College","funders":"","keywords":"Microcarrier; Biomaterial; Electrohydrodynamics; Materials science; Nanotechnology; Biomedical engineering; Regenerative medicine; Tissue engineering; Cell; Engineering","score_opus":0.005512061218315975,"score_gpt":0.19285534099170332,"score_spread":0.18734327977338733,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2236563805","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932592,0.0016565821,0.0038241246,0.000010740751,0.00043975477,0.00032275775,0.00015730939,0.0001797716,0.00014977407],"genre_scores_gemma":[0.98498344,0.0009573928,0.013658912,0.00005026365,0.00007663588,0.00006117783,0.000055455814,0.00007514115,0.00008159592],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989734,0.000015933007,0.00026191515,0.00023513392,0.00009602912,0.00041753557],"domain_scores_gemma":[0.9994106,0.00012489856,0.00005538428,0.00015054,0.00013428641,0.00012427825],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014055622,0.00023855903,0.00029745905,0.00006420175,0.00006562192,0.00009648578,0.000121457255,0.00010164435,0.0000040542154],"category_scores_gemma":[0.00008301259,0.00025457054,0.000034036166,0.00006762385,0.000040367606,0.00023387892,0.000042197167,0.000056678287,0.000004147205],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046951765,0.000007708937,0.000038620816,0.00013241926,0.000026952384,0.0000018331523,0.00035290126,0.0007916872,0.9980472,0.0001904917,0.00017221889,0.00019101414],"study_design_scores_gemma":[0.0005463866,0.0001920139,0.000105293926,0.00003885233,0.000029266845,0.000007438204,0.00017784149,0.0012910669,0.99506956,0.0010377642,0.0011374304,0.00036710562],"about_ca_topic_score_codex":0.000009565668,"about_ca_topic_score_gemma":0.000050904175,"teacher_disagreement_score":0.009834788,"about_ca_system_score_codex":0.00013960322,"about_ca_system_score_gemma":0.00006710438,"threshold_uncertainty_score":0.99999064},"labels":[],"label_agreement":null},{"id":"W2269730577","doi":"10.1002/adma.201504589","title":"Development of Highly Functional Biomaterials by Decoupling and Recombining Material Properties","year":2015,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"College of Dentistry, University of Kentucky; Ministerie van Economische Zaken, Landbouw en Innovatie","keywords":"Materials science; Nanotechnology; Decoupling (probability); Engineering","score_opus":0.04712476127767279,"score_gpt":0.25676777872565665,"score_spread":0.20964301744798386,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2269730577","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968545,0.0001681688,0.0008405887,0.000020698286,0.001579041,0.0001728647,0.0000345617,0.00019780279,0.00013179939],"genre_scores_gemma":[0.97522306,0.00004041646,0.024455676,0.0000074948734,0.00008476718,0.00006137173,0.000045979046,0.00003951046,0.00004169315],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985938,0.00002954369,0.00053109945,0.00019075147,0.0003571504,0.00029764],"domain_scores_gemma":[0.9995151,0.000033510467,0.00006885531,0.0001343208,0.00010981446,0.00013838708],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008872735,0.00016113688,0.00030076067,0.000080739934,0.00005051079,0.0000718492,0.00011901986,0.00008795731,0.00014943744],"category_scores_gemma":[0.00022173898,0.00014178784,0.000010973501,0.000075520555,0.00008398413,0.00017501831,0.00012748041,0.00002754557,0.000029352528],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009487473,0.000011972362,0.00001333286,0.00020849783,0.000025946849,8.801481e-7,0.000190604,0.000093508,0.99450296,0.000025045389,0.00039335122,0.004439049],"study_design_scores_gemma":[0.00046167325,0.000029119188,0.00013493325,0.00011748273,0.0000041729754,0.000004203463,0.00007136938,0.000051200062,0.9925471,0.00014603772,0.006268033,0.00016469938],"about_ca_topic_score_codex":0.0000074983263,"about_ca_topic_score_gemma":0.0000010785392,"teacher_disagreement_score":0.023615086,"about_ca_system_score_codex":0.00008699698,"about_ca_system_score_gemma":0.00006648106,"threshold_uncertainty_score":0.578194},"labels":[],"label_agreement":null},{"id":"W2291024088","doi":"10.1002/adma.201505162","title":"The In‐Gap Electronic State Spectrum of Methylammonium Lead Iodide Single‐Crystal Perovskites","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":223,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; King Abdullah University of Science and Technology","keywords":"Materials science; Iodide; Band gap; Valence (chemistry); Perovskite (structure); Single crystal; Band diagram; Conduction band; Characterization (materials science); Electron; Chemical physics; Condensed matter physics; Crystallography; Nanotechnology; Inorganic chemistry; Optoelectronics; Chemistry","score_opus":0.0073036697491363775,"score_gpt":0.2143060773842627,"score_spread":0.2070024076351263,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2291024088","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963868,0.0004732108,0.001420615,0.00029523188,0.0003345108,0.00026100792,0.00012667911,0.00014208333,0.0005598512],"genre_scores_gemma":[0.9984426,0.000848278,0.00031039203,0.000009840737,0.00006863808,0.000108002554,0.0000061047067,0.000044997047,0.00016115564],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986201,0.000044674733,0.00047771836,0.00019137295,0.00014415044,0.00052199647],"domain_scores_gemma":[0.9993231,0.00016002152,0.00009475918,0.00035226022,0.000033535427,0.000036309742],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032867695,0.00018737478,0.00029198657,0.000054610126,0.000057909874,0.00005015292,0.00023679288,0.000047048197,0.00007446462],"category_scores_gemma":[0.000055356442,0.00011747701,0.0000393444,0.00011561617,0.000086216096,0.00017950888,0.00003599534,0.000044521297,0.000044908167],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000389308,0.000016013159,0.000015879792,0.000029295383,0.000014658395,8.04249e-7,0.00004438316,0.00025850732,0.99322426,0.0017730963,0.000030974137,0.004553186],"study_design_scores_gemma":[0.00036990942,0.00005295325,0.0004308517,0.000047599657,0.0000060148927,0.0000026206703,0.000029294211,0.0000064447004,0.9820821,0.00963031,0.0071753743,0.00016648365],"about_ca_topic_score_codex":0.000020198278,"about_ca_topic_score_gemma":0.00014459481,"teacher_disagreement_score":0.011142128,"about_ca_system_score_codex":0.00014543699,"about_ca_system_score_gemma":0.00002409825,"threshold_uncertainty_score":0.47905734},"labels":[],"label_agreement":null},{"id":"W2303197922","doi":"10.1002/adma.201505355","title":"Surface‐Enhanced Raman Spectroscopy as a Probe of the Surface Chemistry of Nanostructured Materials","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Queen's University; Queen's University Belfast","keywords":"Materials science; Raman spectroscopy; Nanotechnology; Surface-enhanced Raman spectroscopy; Surface (topology); Spectroscopy; Surface modification; Chemical engineering; Raman scattering; Optics","score_opus":0.00697182449048149,"score_gpt":0.23830536899782773,"score_spread":0.23133354450734622,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2303197922","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979217,0.000046333596,0.00006978665,0.0002888562,0.0004820692,0.0004848587,0.00042600636,0.00005051734,0.00022985374],"genre_scores_gemma":[0.99602157,0.00004942667,0.0033067225,0.000026400483,0.000046424855,0.000027540067,0.0000032661585,0.000026968532,0.0004916767],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981205,0.00011005202,0.0007069536,0.00037146223,0.00033983332,0.00035118306],"domain_scores_gemma":[0.99832463,0.000094649724,0.0006137005,0.00073370454,0.00017031869,0.000062985484],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004007527,0.00022103546,0.00052090554,0.0000096876975,0.000098740515,0.000037213555,0.0005240102,0.00007782735,0.0030522],"category_scores_gemma":[0.0001796232,0.00012266547,0.0000758598,0.00012947524,0.00027502739,0.00016073727,0.00014775254,0.00002371037,0.000066753884],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014128293,0.000059970254,0.000030721618,0.00008980391,0.000008710667,2.7764716e-7,0.00007678884,0.000015564116,0.99852055,0.0009257424,0.000043919128,0.00008667118],"study_design_scores_gemma":[0.0005968666,0.000035030596,0.0005054014,0.00019433812,0.000023256363,0.000003012142,0.000037711205,9.0567944e-8,0.9947739,0.0034529418,0.00020692644,0.00017049447],"about_ca_topic_score_codex":0.000051070692,"about_ca_topic_score_gemma":0.0000029562314,"teacher_disagreement_score":0.0037466171,"about_ca_system_score_codex":0.00004056139,"about_ca_system_score_gemma":0.00009073108,"threshold_uncertainty_score":0.9978591},"labels":[],"label_agreement":null},{"id":"W2310529669","doi":"10.1002/adma.201506446","title":"Thermal Processing of Silicones for Green, Scalable, and Healable Superhydrophobic Coatings","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Surface Modification and Superhydrophobicity","field":"Materials Science","cited_by":192,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"McMaster University","keywords":"Materials science; Scalability; Nanotechnology; Degradation (telecommunications); Self-healing; Variety (cybernetics); Computer science; Database; Telecommunications","score_opus":0.01703790856776487,"score_gpt":0.25640653366342975,"score_spread":0.23936862509566487,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2310529669","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99745196,0.00021304184,0.00093699933,0.00039607307,0.00022620066,0.00044246935,0.00014156244,0.00008904778,0.00010266749],"genre_scores_gemma":[0.9945224,0.000044206612,0.0046137716,0.00009816863,0.00004550981,0.00010016769,0.0000040506475,0.000028994296,0.00054271746],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985949,0.00006638079,0.00044989365,0.0003767749,0.00018904809,0.0003230115],"domain_scores_gemma":[0.99909836,0.00015758994,0.00018482025,0.00025111213,0.00023082535,0.00007728355],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006107998,0.00017161235,0.00037975906,0.000047050584,0.00014413861,0.00004309781,0.00015844549,0.000071846545,0.00051096303],"category_scores_gemma":[0.00017088128,0.00011577567,0.00003010176,0.0000754198,0.00021464599,0.0004533637,0.00005827722,0.000017202241,0.000029191307],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016600033,0.000030316744,0.00015214803,0.00017120189,0.000001974079,3.755568e-7,0.00018293658,0.000017485087,0.99588716,0.00022129611,0.00002017546,0.003148925],"study_design_scores_gemma":[0.0009575407,0.00009658178,0.00042249053,0.00010637116,0.000009769062,0.0000031886382,0.000063677675,0.000027369684,0.99670154,0.00062411267,0.0008149675,0.00017240265],"about_ca_topic_score_codex":0.00011023732,"about_ca_topic_score_gemma":0.000007443978,"teacher_disagreement_score":0.0036767721,"about_ca_system_score_codex":0.000031582378,"about_ca_system_score_gemma":0.00005744293,"threshold_uncertainty_score":0.5594687},"labels":[],"label_agreement":null},{"id":"W2346885928","doi":"10.1002/adma.201506215","title":"Three‐Dimensional Printing of Multifunctional Nanocomposites: Manufacturing Techniques and Applications","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Additive Manufacturing and 3D Printing Technologies","field":"Engineering","cited_by":600,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal; École de Technologie Supérieure","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Nanocomposite; 3D printing; Nanotechnology; Composite material","score_opus":0.008428566308584486,"score_gpt":0.21794818170748667,"score_spread":0.20951961539890218,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2346885928","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96159273,0.00007493018,0.036622263,0.000035700145,0.00009320071,0.00024772857,0.000049369017,0.0010014676,0.0002825968],"genre_scores_gemma":[0.95729095,0.00004304008,0.0424244,0.0000035738278,0.000060605704,0.0001302912,0.0000040587674,0.000021543055,0.00002153985],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99936926,0.0000056701465,0.00021777954,0.0001668412,0.000092245675,0.00014818889],"domain_scores_gemma":[0.99959505,0.00011214622,0.00006407459,0.00017307661,0.00003453398,0.000021134005],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001021876,0.00012642244,0.00016248238,0.00007581077,0.000055310546,0.000010288985,0.000091973445,0.000060828894,0.00005260507],"category_scores_gemma":[0.000022352684,0.000093124465,0.000020017886,0.000024821733,0.00008838406,0.00010763876,0.000103112725,0.00003836815,0.000009004087],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006857089,0.000005209835,0.000044233744,0.000057810186,0.000014240473,6.54126e-7,0.0000031257055,0.00006426161,0.8045895,0.0006715337,0.000014858285,0.19452772],"study_design_scores_gemma":[0.00015272727,0.000014240557,0.00157486,0.00012136974,0.0000051174343,0.000010361435,0.000004189303,0.00000562388,0.98680604,0.0048962347,0.0062856674,0.00012359508],"about_ca_topic_score_codex":0.0000032172654,"about_ca_topic_score_gemma":0.0000011933023,"teacher_disagreement_score":0.19440411,"about_ca_system_score_codex":0.000027223805,"about_ca_system_score_gemma":0.0000036868728,"threshold_uncertainty_score":0.37975055},"labels":[],"label_agreement":null},{"id":"W2381827641","doi":"10.1002/adma.201601553","title":"Increasing Polymer Solar Cell Fill Factor by Trap‐Filling with F4‐TCNQ at Parts Per Thousand Concentration","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":102,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Alfred P. Sloan Foundation","keywords":"Trap (plumbing); Materials science; Photovoltaic system; Polymer; Semiconductor; Nanotechnology; Engineering physics; Computer science; Optoelectronics; Electrical engineering; Physics; Engineering; Composite material","score_opus":0.003941466934095384,"score_gpt":0.1826831473716019,"score_spread":0.17874168043750652,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2381827641","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99589795,0.0011350586,0.0017401045,0.000028417362,0.00028506582,0.0001970738,0.00025848713,0.00017658756,0.00028124152],"genre_scores_gemma":[0.99833226,0.00078579446,0.00031841494,0.000046641348,0.00008935081,0.000016481912,0.00003491796,0.00007767645,0.0002984854],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895173,0.000035505203,0.00023001723,0.00021565073,0.00015465646,0.0004124231],"domain_scores_gemma":[0.99956155,0.00006960958,0.00006669911,0.00018514419,0.000032064498,0.00008494947],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001005967,0.00021465392,0.00022917749,0.00001602647,0.000091738235,0.00004877322,0.00007816095,0.000085298016,0.0007798603],"category_scores_gemma":[0.000009245917,0.00015139881,0.000023201534,0.00003815773,0.000025636105,0.00024849843,0.000015363215,0.000047739897,0.000040598075],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006776993,0.000009372016,0.00012431889,0.000033584904,0.000017086824,0.0000018418178,0.000097850614,0.000055162218,0.9989178,0.000017626275,0.00016301045,0.0004945582],"study_design_scores_gemma":[0.0006820985,0.000067582136,0.000048281712,0.000051597475,0.000015312044,0.000009424663,0.000007566749,0.000014884924,0.9865221,0.00003869284,0.012276323,0.00026616262],"about_ca_topic_score_codex":0.000015473117,"about_ca_topic_score_gemma":0.000012357085,"teacher_disagreement_score":0.012395744,"about_ca_system_score_codex":0.00014460715,"about_ca_system_score_gemma":0.000022029606,"threshold_uncertainty_score":0.8538923},"labels":[],"label_agreement":null},{"id":"W2418923412","doi":"10.1002/adma.201504373","title":"Sodium‐Oxygen Batteries: A Comparative Review from Chemical and Electrochemical Fundamentals to Future Perspective","year":2016,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":230,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Overpotential; Commercialization; Battery (electricity); Electrochemistry; Materials science; Oxygen evolution; Energy storage; Nanotechnology; Electrochemical energy conversion; Chemical engineering; Electrode; Chemistry; Thermodynamics; Engineering","score_opus":0.019165859954193957,"score_gpt":0.30619820974988016,"score_spread":0.2870323497956862,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2418923412","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0006897116,0.99411553,0.00036139006,0.00018480803,0.0007324275,0.0016268843,0.0014002562,0.00071344664,0.00017553978],"genre_scores_gemma":[0.00021611509,0.99377227,0.0036757262,0.0002114406,0.0006429967,0.0010933765,0.00022241811,0.00014210075,0.000023578026],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99733263,0.00007748029,0.00090165617,0.00084660156,0.00022695417,0.000614646],"domain_scores_gemma":[0.99874276,0.00015804009,0.00023843917,0.00061219983,0.00009323087,0.0001553228],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00011853541,0.00095639314,0.0034357556,0.00010901669,0.000057728023,0.000119446726,0.00047306952,0.0004095167,0.0005711479],"category_scores_gemma":[0.00007167071,0.000703404,0.00016269929,0.00018151948,0.00012562859,0.0003059512,0.00031645107,0.00022467076,0.00031238646],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051877298,0.000025611247,1.803643e-8,0.024550973,0.00045042078,0.000018867735,0.00014202097,1.8891207e-7,0.7591017,0.0005780525,0.0047503165,0.21032995],"study_design_scores_gemma":[0.00019395522,0.00004354475,1.920629e-7,0.029160647,0.00021181157,0.000029301116,0.00010988837,3.0704932e-8,0.12654635,0.0011411511,0.8417526,0.0008105183],"about_ca_topic_score_codex":0.0000030960778,"about_ca_topic_score_gemma":0.0000011367997,"teacher_disagreement_score":0.8370023,"about_ca_system_score_codex":0.00051560317,"about_ca_system_score_gemma":0.000048215836,"threshold_uncertainty_score":0.9995417},"labels":[],"label_agreement":null},{"id":"W2428605972","doi":"10.1002/adma.201601196","title":"Fast and Sensitive Solution‐Processed Visible‐Blind Perovskite UV Photodetectors","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":281,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photodetector; Materials science; Perovskite (structure); Substrate (aquarium); Optoelectronics; Visible spectrum; Computer science; Nanotechnology; Chemical engineering","score_opus":0.006823052345171449,"score_gpt":0.21845333737133873,"score_spread":0.2116302850261673,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2428605972","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98949313,0.00007616199,0.008573128,0.000111968555,0.0003677265,0.0002703765,0.0002728485,0.00037002313,0.00046460997],"genre_scores_gemma":[0.9975981,0.00034114558,0.0015547484,0.00004169423,0.00014743664,0.00011973839,0.000015381493,0.000049966002,0.00013178546],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990201,0.00002015083,0.00027098446,0.00026553727,0.00011733104,0.00030587884],"domain_scores_gemma":[0.99950296,0.00005181717,0.00005382196,0.00022346107,0.000076987686,0.00009095044],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012959789,0.00021142291,0.00026322083,0.000063829204,0.000099393736,0.00009360042,0.00008635445,0.00007932867,0.00018677367],"category_scores_gemma":[0.00003682162,0.00015988163,0.000022584389,0.00009224858,0.00006819517,0.0003676208,0.000046183774,0.00002823254,0.00011942101],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003736717,0.0000073651563,0.0000034307575,0.00005514377,0.000014489811,0.0000016313294,0.0000681009,0.00007887856,0.9940099,0.00019609836,0.00006972474,0.0054578627],"study_design_scores_gemma":[0.0007770312,0.00002444275,0.00084000494,0.00007784799,0.000013133187,0.000010148188,0.000030740244,0.000048414586,0.9950535,0.00046487091,0.002406868,0.00025294753],"about_ca_topic_score_codex":0.0000087342,"about_ca_topic_score_gemma":0.000008402881,"teacher_disagreement_score":0.008104946,"about_ca_system_score_codex":0.000055335604,"about_ca_system_score_gemma":0.000011969974,"threshold_uncertainty_score":0.6519783},"labels":[],"label_agreement":null},{"id":"W2464131500","doi":"10.1002/adma.201601066","title":"Highly Flexible and Resilient Elastin Hybrid Cryogels with Shape Memory, Injectability, Conductivity, and Magnetic Responsive Properties","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba; Children's Hospital Research Institute of Manitoba","funders":"","keywords":"Materials science; Elastin; Conductivity; Shape-memory alloy; Polypyrrole; Nanoparticle; Magnetic nanoparticles; Composite material; Elasticity (physics); Flexibility (engineering); Nanotechnology; Polymer","score_opus":0.009840402563929937,"score_gpt":0.19806031676814181,"score_spread":0.18821991420421189,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2464131500","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964256,0.0008067231,0.00093404844,0.0001185049,0.00050243107,0.0006043432,0.00012904905,0.0003529395,0.00012635728],"genre_scores_gemma":[0.99487597,0.0006627148,0.003824365,0.000035338657,0.000063631596,0.0001357509,0.000002881089,0.00007497198,0.00032440526],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998586,0.00007089109,0.0003234449,0.00043369873,0.00018402238,0.00040192076],"domain_scores_gemma":[0.99927676,0.00010246386,0.00007133625,0.00031689752,0.000107401334,0.00012513033],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002592135,0.00031790353,0.00044499603,0.00007537608,0.00008729302,0.00007439346,0.00009622707,0.00006153298,0.00014011894],"category_scores_gemma":[0.0001583713,0.00020460208,0.000014238404,0.00005934441,0.00017771988,0.00048235295,0.00014352627,0.00004726785,0.000014058137],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00053250545,0.000014037719,0.000007789022,0.00024414185,0.00001252726,0.000012993426,0.000078547026,0.00012442363,0.9902649,0.00036886442,0.000027012346,0.008312287],"study_design_scores_gemma":[0.0011210936,0.0004776152,0.00028391927,0.000267016,0.00002425231,0.000089375964,0.00006450442,0.000023917564,0.9932291,0.002617894,0.0014363724,0.00036496652],"about_ca_topic_score_codex":0.00000855171,"about_ca_topic_score_gemma":0.00001003703,"teacher_disagreement_score":0.007947321,"about_ca_system_score_codex":0.000063803556,"about_ca_system_score_gemma":0.000029429953,"threshold_uncertainty_score":0.8343431},"labels":[],"label_agreement":null},{"id":"W2471762312","doi":"10.1002/adma.201601351","title":"Flexible and Porous Nanocellulose Aerogels with High Loadings of Metal–Organic‐Framework Particles for Separations Applications","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":471,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Australian Government","keywords":"Nanocellulose; Materials science; Porosity; Metal-organic framework; Nanotechnology; Porous medium; Process (computing); Nanocrystal; Cellulose; Chemical engineering; Adsorption; Computer science; Composite material; Organic chemistry","score_opus":0.017019079682415103,"score_gpt":0.29186750881222545,"score_spread":0.27484842912981033,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2471762312","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.80419123,0.0004338933,0.19332363,0.00036755466,0.00008490574,0.0010952874,0.0003495841,0.00012271431,0.00003117979],"genre_scores_gemma":[0.903489,0.00033312282,0.094510704,0.000030932883,0.00006931554,0.0010637162,0.000008001121,0.000040530682,0.00045467963],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982571,0.000054953005,0.00044490333,0.00047641015,0.00029112157,0.00047551215],"domain_scores_gemma":[0.99817145,0.00063124875,0.00029720424,0.00043351424,0.0003520719,0.0001145383],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040924246,0.00022329786,0.00047586448,0.00006300036,0.00024793443,0.000048958867,0.00020967744,0.00006489064,0.00023963829],"category_scores_gemma":[0.00034611838,0.00014344805,0.000029875284,0.00018291811,0.00042767246,0.0004904762,0.00013010934,0.000030085754,0.0000493416],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019921272,0.000059162903,0.0000193049,0.00011791388,0.000029584782,0.0000013249186,0.00008914703,0.000019076477,0.97021323,0.027151942,0.000023024859,0.0020770435],"study_design_scores_gemma":[0.00072141015,0.00024004713,0.00005790904,0.000109537534,0.000045648332,0.000007525342,0.00008418947,4.1668392e-7,0.95354736,0.043258462,0.0017244191,0.0002030681],"about_ca_topic_score_codex":0.000008705595,"about_ca_topic_score_gemma":0.000008164268,"teacher_disagreement_score":0.09929773,"about_ca_system_score_codex":0.00006072454,"about_ca_system_score_gemma":0.00006635067,"threshold_uncertainty_score":0.5849642},"labels":[],"label_agreement":null},{"id":"W2485158864","doi":"10.1002/adma.201602645","title":"Controlled Coalescence of AlGaN Nanowire Arrays: An Architecture for Nearly Dislocation‐Free Planar Ultraviolet Photonic Device Applications","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"GaN-based semiconductor devices and materials","field":"Physics and Astronomy","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; McGill University","funders":"","keywords":"Materials science; Nanowire; Optoelectronics; Coalescence (physics); Sapphire; Planar; Ultraviolet; Diode; Dislocation; Photonics; Template; Epitaxy; Nanotechnology; Optics; Composite material; Laser","score_opus":0.010283732038357375,"score_gpt":0.25546608141816957,"score_spread":0.2451823493798122,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2485158864","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94397604,0.00005939065,0.049057532,0.00018923865,0.00031387655,0.0023764272,0.0037829776,0.00006788941,0.00017662406],"genre_scores_gemma":[0.99137986,0.000009901149,0.006369215,0.00008452219,0.00024279962,0.0014451911,0.0003024201,0.000044382905,0.00012168664],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99842775,0.00007972475,0.00058930495,0.00040758448,0.00015875095,0.00033687774],"domain_scores_gemma":[0.99825555,0.00020832551,0.0004872161,0.0007034506,0.00023736098,0.00010809396],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027030546,0.00026237813,0.0006201106,0.000052189465,0.0001229856,0.000054479246,0.0004549347,0.000062332045,0.0002803377],"category_scores_gemma":[0.000034203567,0.00018333607,0.000101882964,0.00007337282,0.00009539059,0.00024863024,0.000024157598,0.000032367694,0.000015758324],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031932606,0.00009599104,0.00008669676,0.00008487435,0.00005132076,1.17605154e-7,0.000088646346,0.00001920678,0.9861194,0.009433127,0.000039754857,0.0036615483],"study_design_scores_gemma":[0.0047571897,0.00012658387,0.00023617539,0.00013775894,0.00007365812,6.744004e-7,0.00013328504,0.0000016967008,0.97546417,0.014464232,0.0043429504,0.00026165842],"about_ca_topic_score_codex":0.00010537734,"about_ca_topic_score_gemma":0.000019490077,"teacher_disagreement_score":0.04740384,"about_ca_system_score_codex":0.00002485962,"about_ca_system_score_gemma":0.000100629266,"threshold_uncertainty_score":0.7476228},"labels":[],"label_agreement":null},{"id":"W2507221769","doi":"10.1002/adma.201600784","title":"Highly Efficient Perovskite‐Quantum‐Dot Light‐Emitting Diodes by Surface Engineering","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":1108,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Research Foundation of Korea","keywords":"Quantum dot; Halide; Materials science; Perovskite (structure); Diode; Light-emitting diode; Ligand (biochemistry); Optoelectronics; Ion; Inorganic chemistry; Crystallography; Chemistry; Organic chemistry","score_opus":0.004403346971934184,"score_gpt":0.1971089700645909,"score_spread":0.19270562309265674,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2507221769","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906409,0.00039208215,0.0060174027,0.00022026263,0.00097297103,0.00026683282,0.00040326745,0.0008372982,0.00024903074],"genre_scores_gemma":[0.9966864,0.0001936192,0.0025442254,0.000023545384,0.00018311648,0.00009235435,0.000028326274,0.0001047916,0.00014360795],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984062,0.000019732463,0.0004829781,0.00034501075,0.00020848407,0.000537596],"domain_scores_gemma":[0.99924266,0.00009260963,0.00007412644,0.00040749938,0.000057501005,0.0001256138],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002440946,0.00032487532,0.00037873586,0.000045715045,0.000095050316,0.00010322364,0.0002454041,0.0001001108,0.00020680681],"category_scores_gemma":[0.000068562935,0.00024932437,0.000050338527,0.000119826225,0.00002564187,0.00018516877,0.00006803371,0.00004703415,0.00027108146],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000007817237,0.00001768227,0.000004556366,0.00007248666,0.000016938482,0.0000017722978,0.000050371356,0.010509786,0.98679477,0.001032875,0.0007839073,0.00070705405],"study_design_scores_gemma":[0.00038453212,0.00001749757,0.00007918181,0.00013799153,0.000011821004,0.0000047858475,0.0000121639905,0.00040048754,0.96047884,0.000085534855,0.03800911,0.00037804616],"about_ca_topic_score_codex":0.0000063310367,"about_ca_topic_score_gemma":4.9209024e-7,"teacher_disagreement_score":0.037225205,"about_ca_system_score_codex":0.0001254191,"about_ca_system_score_gemma":0.000009161885,"threshold_uncertainty_score":0.9999959},"labels":[],"label_agreement":null},{"id":"W2510136453","doi":"10.1002/adma.201602270","title":"Transition‐Metal (Co, Ni, and Fe)‐Based Electrocatalysts for the Water Oxidation Reaction","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":1751,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Materials science; Transition metal; Nickel; Metal; Chemical engineering; Nanotechnology; Inorganic chemistry; Catalysis; Metallurgy; Organic chemistry; Chemistry","score_opus":0.00850830766446498,"score_gpt":0.2335914455302877,"score_spread":0.22508313786582274,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2510136453","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97383595,0.000051125473,0.022615198,0.002363038,0.0004178502,0.00040211933,0.000012880298,0.00016649823,0.00013535032],"genre_scores_gemma":[0.9979845,0.00007594436,0.000434595,0.00023098408,0.00016517949,0.00021703729,0.00026732835,0.00004418174,0.0005801954],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878335,0.000059080598,0.0002615059,0.0003250592,0.0002181563,0.0003528594],"domain_scores_gemma":[0.99928534,0.00014134974,0.00009181479,0.0002991649,0.00013783512,0.000044474033],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000422553,0.00018681843,0.00020242517,0.000078354955,0.00021366014,0.000034649805,0.00011702198,0.000089743786,0.00011297311],"category_scores_gemma":[0.00006674968,0.00008779558,0.000055671357,0.000060286067,0.000056661836,0.0005039822,0.000012547394,0.000030933403,0.00006319977],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043509572,0.000015890582,5.3175285e-7,0.000022395872,0.0000397817,6.9166293e-7,0.000037466747,0.000036314774,0.987984,0.0011500681,0.00008026874,0.010197509],"study_design_scores_gemma":[0.0013800487,0.00013926763,0.000040484443,0.000023354745,0.000072067356,0.000009608743,0.000012276765,0.000016653697,0.9758811,0.0030018413,0.019245164,0.0001781201],"about_ca_topic_score_codex":0.00011639595,"about_ca_topic_score_gemma":0.00011202315,"teacher_disagreement_score":0.024148615,"about_ca_system_score_codex":0.0001471984,"about_ca_system_score_gemma":0.000024631625,"threshold_uncertainty_score":0.35802},"labels":[],"label_agreement":null},{"id":"W2510831124","doi":"10.1002/adma.201602541","title":"Breathable and Wearable Energy Storage Based on Highly Flexible Paper Electrodes","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":256,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canada Excellence Research Chairs, Government of Canada","keywords":"Supercapacitor; Wearable computer; Flexibility (engineering); Materials science; Energy storage; Nanotechnology; Electrochemical energy storage; Wearable technology; Electrode; Computer science; Electrochemistry; Embedded system","score_opus":0.007650044866876494,"score_gpt":0.2165301901476566,"score_spread":0.2088801452807801,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2510831124","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9938992,0.00016470051,0.0024387361,0.00049707346,0.0010147465,0.00017134454,0.00013637824,0.0002748053,0.0014029697],"genre_scores_gemma":[0.9952007,0.00022957883,0.0023253267,0.00063896907,0.00025061247,0.00013544348,0.0000101606465,0.00004853451,0.0011607081],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99815387,0.00015047856,0.00034550822,0.00055401766,0.0003079343,0.00048821658],"domain_scores_gemma":[0.99901754,0.00015066868,0.00012906775,0.0004905801,0.0000998132,0.000112315596],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00048978266,0.000262316,0.00036404407,0.000086516025,0.00019519229,0.0001724114,0.00019319732,0.00010515054,0.0032047015],"category_scores_gemma":[0.00011269174,0.00017560628,0.000030978204,0.00009020917,0.000104988314,0.00069564657,0.000047003447,0.000021884156,0.00027893262],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028023613,0.000046099834,0.000012021863,0.000023410557,0.0000031297332,0.0000032798484,0.00001650633,0.000030301333,0.9933515,0.004034647,0.00036981388,0.0018290159],"study_design_scores_gemma":[0.0008123174,0.00023775888,0.00039298186,0.00012230969,0.000010651867,0.00000605415,0.00000925314,0.000005723162,0.9809366,0.0026404038,0.014545301,0.0002806737],"about_ca_topic_score_codex":0.00014775751,"about_ca_topic_score_gemma":0.0000060293764,"teacher_disagreement_score":0.014175487,"about_ca_system_score_codex":0.00011020175,"about_ca_system_score_gemma":0.00004973463,"threshold_uncertainty_score":0.99770653},"labels":[],"label_agreement":null},{"id":"W2528813446","doi":"10.1002/adma.201602763","title":"Gold Nanorods, DNA Origami, and Porous Silicon Nanoparticle‐functionalized Biocompatible Double Emulsion for Versatile Targeted Therapeutics and Antibody Combination Therapy","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Cape Breton University","funders":"European Research Council; China Scholarship Council; Academy of Finland; Jane ja Aatos Erkon Säätiö; National Science Foundation","keywords":"Nanotechnology; Photothermal therapy; Biocompatible material; Materials science; Nanorod; Nanoparticle; Colloidal gold; Emulsion; Chemistry; Biomedical engineering; Medicine; Organic chemistry","score_opus":0.014845993017602291,"score_gpt":0.2937518196660121,"score_spread":0.2789058266484098,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2528813446","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99715644,0.0006980277,0.0010817106,0.0002635288,0.0001453098,0.00049743516,0.0000782978,0.000061812534,0.000017441236],"genre_scores_gemma":[0.9935063,0.0025405174,0.003070029,0.00019687257,0.00006648704,0.000048516584,0.00019656311,0.000026787593,0.00034788778],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989904,0.000047285786,0.00025060945,0.00039084765,0.00010784247,0.0002129828],"domain_scores_gemma":[0.9993696,0.000032506498,0.00015720299,0.00021710951,0.00017632295,0.000047211845],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018583848,0.00018940379,0.00023434623,0.00004461249,0.000109209876,0.000037991216,0.00006142083,0.00012164527,0.00000698259],"category_scores_gemma":[0.000029884151,0.00012909726,0.000035907535,0.00006054054,0.00011179206,0.00002431613,0.000043873948,0.000017231478,8.456554e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011354752,0.000059461046,0.00013577855,0.000013964804,0.000049644466,3.1042066e-7,0.00001265611,5.213101e-7,0.9809315,0.00020595003,0.00005475553,0.017399956],"study_design_scores_gemma":[0.0036914812,0.00062377605,0.00052159623,0.000031563464,0.000026549502,0.000004932877,0.000017402901,0.0000059179006,0.98108315,0.0010111185,0.012769328,0.0002131671],"about_ca_topic_score_codex":0.000008834176,"about_ca_topic_score_gemma":0.0000056054437,"teacher_disagreement_score":0.017186789,"about_ca_system_score_codex":0.00001811477,"about_ca_system_score_gemma":0.000015032407,"threshold_uncertainty_score":0.5264433},"labels":[],"label_agreement":null},{"id":"W2550248034","doi":"10.1002/adma.201603040","title":"Interwoven MXene Nanosheet/Carbon‐Nanotube Composites as Li–S Cathode Hosts","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":757,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Polysulfide; Materials science; Nanosheet; Carbon nanotube; Nanotechnology; Carbon fibers; Sulfur; Cathode; Electrochemistry; Composite material; Electrode; Chemistry; Metallurgy","score_opus":0.009209779985516883,"score_gpt":0.2604136070464943,"score_spread":0.25120382706097744,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2550248034","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98908335,0.00019376651,0.00030209153,0.0007988912,0.004209168,0.0006236005,0.00037837285,0.0004961043,0.003914665],"genre_scores_gemma":[0.99110204,0.00019528336,0.00456268,0.0008602396,0.00052130135,0.00022447926,0.00003115972,0.00010897334,0.0023938324],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99625593,0.0003333424,0.0009864146,0.0009354132,0.00054476835,0.0009441404],"domain_scores_gemma":[0.9977764,0.00025279625,0.00045616704,0.0010087892,0.00024422744,0.00026164565],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0009665495,0.00055567134,0.0009130309,0.00015031018,0.00017634664,0.0002676934,0.0007426859,0.00018898035,0.006587257],"category_scores_gemma":[0.00047298946,0.00038300466,0.00009642761,0.00014355485,0.00021256047,0.000695628,0.0004429102,0.000050074177,0.002520512],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004178564,0.000099366,0.000020691303,0.00007042873,0.000017995553,0.000060278082,0.00013124294,0.0000041713265,0.9949236,0.0018163894,0.0006056529,0.0018323497],"study_design_scores_gemma":[0.001471164,0.000289996,0.00010890694,0.00032798268,0.000040169103,0.00006697067,0.00002544972,4.6163697e-7,0.9775504,0.0050968127,0.014414633,0.0006070895],"about_ca_topic_score_codex":0.00021961489,"about_ca_topic_score_gemma":0.000021578497,"teacher_disagreement_score":0.017373214,"about_ca_system_score_codex":0.00016820336,"about_ca_system_score_gemma":0.00011901222,"threshold_uncertainty_score":0.9998622},"labels":[],"label_agreement":null},{"id":"W2558095361","doi":"10.1002/adma.201604685","title":"Electrically Rechargeable Zinc–Air Batteries: Progress, Challenges, and Perspectives","year":2016,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":1570,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; University of Waterloo","keywords":"Battery (electricity); Energy density; Materials science; Nanotechnology; Energy storage; Zinc; Engineering physics; Engineering; Metallurgy","score_opus":0.04896943820126218,"score_gpt":0.31984741184841664,"score_spread":0.2708779736471545,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2558095361","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000018311379,0.99511516,0.0002131574,0.00016005537,0.00037417706,0.0013254136,0.00020353791,0.0016863197,0.0009038398],"genre_scores_gemma":[0.00007105829,0.9937787,0.003926589,0.0000069742027,0.00019721685,0.0013932971,0.00003133939,0.000281491,0.000313333],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99695075,0.00012438637,0.0007123725,0.0008759238,0.00034686367,0.0009897049],"domain_scores_gemma":[0.9983666,0.00027475218,0.00019732131,0.000911297,0.00012480216,0.00012523528],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003243215,0.0008099963,0.0021047585,0.00035701974,0.000089373694,0.00006517521,0.00065202644,0.00057711394,0.00023311633],"category_scores_gemma":[0.00032197847,0.0006102157,0.0001240746,0.00023798007,0.00029352607,0.00044439564,0.0003415822,0.00039053167,0.00024384915],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000010474451,0.000016201451,2.4112788e-8,0.011700621,0.00012325906,0.000029429704,0.000037449,6.531133e-7,0.0013225214,0.0010176594,0.00023686727,0.98550487],"study_design_scores_gemma":[0.00020394426,0.00011132749,8.5793323e-7,0.0069252443,0.00005035816,0.00006564929,0.000046501278,3.596936e-7,0.0030746956,0.0018241953,0.98696023,0.00073663454],"about_ca_topic_score_codex":3.7316042e-7,"about_ca_topic_score_gemma":8.2323845e-7,"teacher_disagreement_score":0.98672336,"about_ca_system_score_codex":0.00056237815,"about_ca_system_score_gemma":0.00007682217,"threshold_uncertainty_score":0.9996349},"labels":[],"label_agreement":null},{"id":"W2562854090","doi":"10.1002/adma.201601741","title":"Engineered Graphene Materials: Synthesis and Applications for Polymer Electrolyte Membrane Fuel Cells","year":2016,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Fuel Cells and Related Materials","field":"Engineering","cited_by":167,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada; Western University","funders":"National Natural Science Foundation of China","keywords":"Materials science; Graphene; Electrolyte; Durability; Proton exchange membrane fuel cell; Membrane; Polymer; Nanotechnology; Conductivity; Fuel cells; Electrochemistry; Electrode; Composite material; Chemical engineering; Engineering","score_opus":0.008796663991382948,"score_gpt":0.23551005329442576,"score_spread":0.2267133893030428,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2562854090","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000037929552,0.9887402,0.0007199005,0.000007193334,0.002156337,0.002945521,0.0044171554,0.0005833413,0.00039243806],"genre_scores_gemma":[0.00020601232,0.9907659,0.0010327295,0.0000108096965,0.0007782601,0.006146338,0.0002606725,0.00042624294,0.00037297697],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99702215,0.000096249525,0.0012513376,0.00067182974,0.00018163139,0.00077682285],"domain_scores_gemma":[0.99830735,0.00045389438,0.00033435685,0.0006599211,0.00007195069,0.00017250123],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040285187,0.0009589421,0.002770475,0.00028282116,0.00009979601,0.00017644954,0.00037351143,0.0007104684,0.0006115147],"category_scores_gemma":[0.000034401488,0.0007175598,0.00024634495,0.00016930954,0.00007314058,0.00018250398,0.0000700489,0.00009867868,0.00018275641],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027072585,0.000017546057,6.345308e-10,0.0863632,0.00039990578,0.0000028309714,0.000007148744,0.000013721249,0.82061756,0.00038784556,0.00015891134,0.09200428],"study_design_scores_gemma":[0.00020573128,0.000017598175,7.789505e-9,0.0025249966,0.00045925425,0.000014787643,0.0000010374298,3.40446e-7,0.48941848,0.0002191958,0.50662535,0.0005131774],"about_ca_topic_score_codex":0.0000031232341,"about_ca_topic_score_gemma":4.5615985e-7,"teacher_disagreement_score":0.50646645,"about_ca_system_score_codex":0.00010044964,"about_ca_system_score_gemma":0.000050048067,"threshold_uncertainty_score":0.9995276},"labels":[],"label_agreement":null},{"id":"W2565174345","doi":"10.1002/adma.201604456","title":"In Situ Polymer Graphenization Ingrained with Nanoporosity in a Nitrogenous Electrocatalyst Boosting the Performance of Polymer‐Electrolyte‐Membrane Fuel Cells","year":2016,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":237,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Electrocatalyst; Polyaniline; Graphene; Electrolyte; Polymer; Fuel cells; Supercapacitor; Chemical engineering; Membrane; Nanotechnology; Electrode; Electrochemistry; Composite material; Chemistry","score_opus":0.0032422113762847057,"score_gpt":0.18459763855841582,"score_spread":0.18135542718213113,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2565174345","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983696,0.00053531537,0.00005720587,0.00015687908,0.00011486245,0.0002920837,0.0000041699345,0.00007080161,0.00039913508],"genre_scores_gemma":[0.99894655,0.00029364985,0.00009723164,0.00013811073,0.000049386967,0.00006988539,0.00003317175,0.000067371824,0.00030465174],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975583,0.00016060105,0.000650882,0.00045834528,0.00044301955,0.0007288664],"domain_scores_gemma":[0.99873596,0.00013986636,0.00041955887,0.00049969513,0.00014849308,0.00005642224],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000518165,0.00033752574,0.00051493786,0.00032533734,0.00010278382,0.000020757918,0.0003786004,0.00010374199,0.0000600636],"category_scores_gemma":[0.000060788538,0.00021361276,0.00005332234,0.00095201586,0.0001269443,0.00061981066,0.00007056055,0.000108920925,0.000015515609],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011556738,0.0000789857,0.00047141948,0.00007508697,0.000034306024,0.000009944066,0.00025374055,0.00014658204,0.9957595,0.0011218617,0.0000025517963,0.0008903594],"study_design_scores_gemma":[0.0020599186,0.0003441653,0.0003402352,0.00016821193,0.000029479244,0.000024808434,0.000033397242,0.000007943238,0.99647784,0.00016237874,0.00005028769,0.00030131853],"about_ca_topic_score_codex":0.0014766216,"about_ca_topic_score_gemma":0.0034236242,"teacher_disagreement_score":0.0019470026,"about_ca_system_score_codex":0.00026580133,"about_ca_system_score_gemma":0.0001414598,"threshold_uncertainty_score":0.87108755},"labels":[],"label_agreement":null},{"id":"W2581847710","doi":"10.1002/adma.201602013","title":"Multi‐Scale Microstructural Thermoelectric Materials: Transport Behavior, Non‐Equilibrium Preparation, and Applications","year":2017,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Thermoelectric Materials and Devices","field":"Materials Science","cited_by":295,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Key Research and Development Program of China; Canada Excellence Research Chairs, Government of Canada; National Natural Science Foundation of China","keywords":"Thermoelectric effect; Thermoelectric materials; Materials science; Nanotechnology; Photovoltaic system; Waste heat; Fabrication; Engineering physics; Work (physics); Scale (ratio); Energy transformation; Process engineering; Mechanical engineering; Thermal conductivity; Electrical engineering; Engineering; Heat exchanger","score_opus":0.030767711544054898,"score_gpt":0.3539152065428539,"score_spread":0.323147494998799,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2581847710","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.049907308,0.9372238,0.00066826446,0.000005912859,0.00206077,0.006306911,0.0032470045,0.00041209618,0.00016796643],"genre_scores_gemma":[0.012747103,0.9718254,0.006914178,0.000032808093,0.0008834896,0.0053938446,0.0010185475,0.00029104174,0.0008935807],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9944303,0.000306559,0.0020429303,0.0017021642,0.00046406678,0.0010539512],"domain_scores_gemma":[0.9953333,0.000116335075,0.0023332108,0.0017056282,0.00025338665,0.0002581106],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0008291154,0.0012918658,0.0036390596,0.00024478638,0.0006387301,0.0007214337,0.0012626891,0.0006637625,0.0012239416],"category_scores_gemma":[0.00005820891,0.0010556785,0.00024432238,0.00021135213,0.00036241373,0.000972305,0.0002579711,0.00019453502,0.0003590192],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007481619,0.0000669186,6.2162513e-7,0.005202206,0.000033379794,0.000014688568,0.000061245715,9.2516115e-7,0.8596195,0.000036512036,0.000014325711,0.13487485],"study_design_scores_gemma":[0.00062338327,0.00012846726,0.00003872004,0.0014844822,0.00082566374,0.00021594921,0.000008433852,4.81388e-7,0.51547855,0.00019567221,0.4797443,0.0012558937],"about_ca_topic_score_codex":0.00009025814,"about_ca_topic_score_gemma":0.000024748646,"teacher_disagreement_score":0.47972995,"about_ca_system_score_codex":0.00017934783,"about_ca_system_score_gemma":0.00034226864,"threshold_uncertainty_score":0.9999833},"labels":[],"label_agreement":null},{"id":"W2587552340","doi":"10.1002/adma.201605349","title":"Slow Photons for Photocatalysis and Photovoltaics","year":2017,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":207,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Ministero dello Sviluppo Economico; Ontario Ministry of Research, Innovation and Science; Natural Science Foundation of Hubei Province; Miljøministeriet; National Natural Science Foundation of China","keywords":"Photovoltaics; Photonics; Photon; Materials science; Nanotechnology; Renewable energy; Energy transformation; Solar energy; Engineering physics; Photovoltaic system; Optoelectronics; Physics; Optics; Electrical engineering; Engineering","score_opus":0.07326827146958949,"score_gpt":0.40068814823433324,"score_spread":0.32741987676474377,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2587552340","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00013742814,0.9823203,0.0007497282,0.000007336605,0.00032441076,0.004019541,0.010415216,0.000054198328,0.0019718055],"genre_scores_gemma":[0.00033774856,0.9874494,0.0015984442,0.0000091132815,0.00029274976,0.0067028026,0.0017846496,0.00009489614,0.0017301639],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9984142,0.000024231973,0.0005537475,0.0005615933,0.00010365687,0.00034253715],"domain_scores_gemma":[0.99807,0.00013833813,0.0007369159,0.00087581977,0.00007375213,0.00010519567],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022075308,0.00044207455,0.0016837558,0.000062297164,0.0003732406,0.00022250814,0.00037906144,0.00011666504,0.00029502917],"category_scores_gemma":[0.000020184132,0.00037962382,0.00033456847,0.00005510931,0.00008936376,0.00012935986,0.00013887254,0.00009063056,0.00003198328],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000008056215,0.00006515528,1.5548024e-7,0.004123418,0.0002837069,6.0257713e-7,0.00002040162,2.2982243e-7,0.011366101,0.0027710837,0.00064178964,0.9807193],"study_design_scores_gemma":[0.0002657219,0.00001550514,9.750578e-8,0.001330063,0.000658703,0.0000020362422,0.000012822821,0.0000012551511,0.013316418,0.0030547406,0.98094517,0.0003974671],"about_ca_topic_score_codex":0.00007009423,"about_ca_topic_score_gemma":0.0000027070291,"teacher_disagreement_score":0.9803218,"about_ca_system_score_codex":0.000035299283,"about_ca_system_score_gemma":0.00015777745,"threshold_uncertainty_score":0.9998656},"labels":[],"label_agreement":null},{"id":"W2591984778","doi":"10.1002/adma.201606663","title":"Superior Stable and Long Life Sodium Metal Anodes Achieved by Atomic Layer Deposition","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":367,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Western University; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canada Foundation for Innovation","keywords":"Materials science; Faraday efficiency; Anode; Layer (electronics); Electrolyte; Atomic layer deposition; Stripping (fiber); Electrochemistry; Metal; Chemical engineering; Plating (geology); Coating; Deposition (geology); Nanotechnology; Composite material; Electrode; Metallurgy; Chemistry","score_opus":0.011971497191008979,"score_gpt":0.2486469850719983,"score_spread":0.23667548788098933,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2591984778","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99353224,0.00044333126,0.0029713071,0.00006108547,0.0018437855,0.00035706643,0.00029632097,0.00027326256,0.000221625],"genre_scores_gemma":[0.9940468,0.000298534,0.0049618226,0.00011148044,0.00012577773,0.000106661224,0.00007203695,0.0000914945,0.00018537119],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99864155,0.000042440843,0.0004002403,0.00031803205,0.00017447941,0.00042327293],"domain_scores_gemma":[0.9991365,0.00003064252,0.00013538016,0.0005506552,0.000038988474,0.00010782131],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022133933,0.00030072193,0.0004629047,0.000038800863,0.00031456258,0.00041421104,0.00026077934,0.0000968696,0.00035329742],"category_scores_gemma":[0.00009536896,0.00030386122,0.000021148438,0.000018460803,0.00009471841,0.0013507872,0.00015101078,0.00005469761,0.00007010058],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007620738,0.000014250277,0.00020233059,0.00013331648,0.00004641694,0.000007163223,0.000036053414,0.00013604244,0.99850774,0.000070327784,0.00030283455,0.00046730827],"study_design_scores_gemma":[0.0008491211,0.000032183812,0.0020481092,0.00005985411,0.00003725693,0.000010766622,0.000019482879,0.00002916086,0.9950975,0.0004756362,0.0009892826,0.0003516516],"about_ca_topic_score_codex":0.00002091616,"about_ca_topic_score_gemma":0.000006946069,"teacher_disagreement_score":0.0034102546,"about_ca_system_score_codex":0.000079933176,"about_ca_system_score_gemma":0.0000111820345,"threshold_uncertainty_score":0.99994135},"labels":[],"label_agreement":null},{"id":"W2593052824","doi":"10.1002/adma.201606478","title":"Quantitative Determination on Ionic‐Liquid‐Gating Control of Interfacial Magnetism","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Transition Metal Oxide Nanomaterials","field":"Materials Science","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"Basic Energy Sciences; National Key Research and Development Program of China; Natural Science Foundation of Shaanxi Province; National Natural Science Foundation of China; Fundamental Research Funds for the Central Universities; Higher Education Discipline Innovation Project; International Joint Laboratory for MicroNano Manufacturing and Measurement Technologies; U.S. Department of Energy","keywords":"Gating; Materials science; Spintronics; Ionic liquid; Magnetism; Anisotropy; Ionic bonding; Condensed matter physics; Analytical Chemistry (journal); Nanotechnology; Ion; Ferromagnetism; Chemistry; Optics; Physics","score_opus":0.02078207034942585,"score_gpt":0.31255570958810347,"score_spread":0.2917736392386776,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2593052824","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906553,0.000028531776,0.00478542,0.00017365428,0.0025432748,0.00054121105,0.0005100692,0.000094620336,0.00066789344],"genre_scores_gemma":[0.98785114,0.000011793361,0.011732341,0.000099567565,0.00011355306,0.00008427233,0.000012164005,0.000035440942,0.00005970033],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99770117,0.0002743941,0.00083065627,0.0004304523,0.00042269536,0.00034061942],"domain_scores_gemma":[0.9976466,0.00019252133,0.0011432528,0.00066888344,0.00027761408,0.00007116213],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001138803,0.0002613934,0.00064515497,0.00009756382,0.00032774147,0.00023300832,0.0005299467,0.000113620765,0.0014485191],"category_scores_gemma":[0.0011210009,0.00024085237,0.00007526572,0.000033535805,0.0002799836,0.000904822,0.00007973682,0.00004835454,0.00034798266],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016364254,0.000048501235,0.000004157526,0.00007246648,0.00000690042,0.000008443493,0.00014950623,0.00008760873,0.99126065,0.00571471,0.000004856341,0.0010058007],"study_design_scores_gemma":[0.0016981253,0.0011105832,0.0015046871,0.00020944314,0.000029201063,0.0000043514733,0.000044860328,0.000014356176,0.99387205,0.0011858921,0.00008520884,0.00024127423],"about_ca_topic_score_codex":0.00004941959,"about_ca_topic_score_gemma":0.000012952833,"teacher_disagreement_score":0.006946921,"about_ca_system_score_codex":0.000063997846,"about_ca_system_score_gemma":0.000044759054,"threshold_uncertainty_score":0.9994643},"labels":[],"label_agreement":null},{"id":"W2598461673","doi":"10.1002/adma.201605945","title":"Highly Emissive Green Perovskite Nanocrystals in a Solid State Crystalline Matrix","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":371,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Photoluminescence; Perovskite (structure); Nanocrystal; Quantum yield; Passivation; Optoelectronics; Nanotechnology; Chemical engineering; Optics; Fluorescence","score_opus":0.008280644256301171,"score_gpt":0.271828312160469,"score_spread":0.26354766790416784,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2598461673","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961251,0.00015317285,0.0007595118,0.00021215953,0.0004510408,0.00044815385,0.0006249352,0.0002864861,0.0009394231],"genre_scores_gemma":[0.9962711,0.00050194346,0.001769658,0.00003372123,0.00017735033,0.00022148878,0.00006237883,0.00008138493,0.0008810219],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984141,0.00002704125,0.00057004514,0.00032296064,0.00017654186,0.000489298],"domain_scores_gemma":[0.9987996,0.000027888022,0.00018032805,0.00080472225,0.000073306684,0.00011412974],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024054474,0.00029695188,0.0004950837,0.00008734221,0.00020056768,0.0003078006,0.00048334987,0.00009220082,0.00026065734],"category_scores_gemma":[0.00007729701,0.00029361548,0.000045904624,0.000055416087,0.00006936001,0.0005062839,0.00013540321,0.000070701346,0.00012329225],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032856227,0.000020295576,0.000024136001,0.0001481214,0.000015795538,0.000023564537,0.00013025441,0.002942759,0.9952588,0.00024637143,0.00014261313,0.0010144366],"study_design_scores_gemma":[0.0010835654,0.000033849723,0.0043060123,0.00017818436,0.000013792258,0.000010523819,0.000026768805,0.00018954684,0.9720205,0.0047882614,0.016835479,0.00051348534],"about_ca_topic_score_codex":0.00015013976,"about_ca_topic_score_gemma":0.0001585565,"teacher_disagreement_score":0.023238266,"about_ca_system_score_codex":0.000097272605,"about_ca_system_score_gemma":0.000028080956,"threshold_uncertainty_score":0.9999516},"labels":[],"label_agreement":null},{"id":"W2605174594","doi":"10.1002/adma.201606061","title":"Emerging Biofabrication Strategies for Engineering Complex Tissue Constructs","year":2017,"lang":"en","type":"review","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":388,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"Natural Sciences and Engineering Research Council of Canada; Health Resources and Services Administration; Canada Excellence Research Chairs, Government of Canada; Canada Foundation for Innovation; Villum Fonden","keywords":"Biofabrication; Materials science; Tissue engineering; Nanotechnology; Systems engineering; Engineering ethics; Biochemical engineering; Biomedical engineering; Engineering","score_opus":0.11481863472560973,"score_gpt":0.4252680816229375,"score_spread":0.3104494468973278,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2605174594","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000023069779,0.97969943,0.015249282,0.000007857554,0.0016715837,0.0015268434,0.00038464513,0.0005954346,0.00084185106],"genre_scores_gemma":[0.00040294492,0.97669214,0.021362556,0.0000021840074,0.0004014174,0.00060800096,0.00030344585,0.00016076688,0.00006653248],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9981098,0.00003213553,0.0006810974,0.00035752312,0.00027110724,0.000548302],"domain_scores_gemma":[0.99872684,0.0002880099,0.00022271877,0.0005396387,0.000107122716,0.00011566232],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048290723,0.0004293792,0.0013211044,0.000217198,0.00011704902,0.00031990558,0.00064168987,0.00027721506,0.00015286975],"category_scores_gemma":[0.00058586453,0.00041032006,0.00011072907,0.00010475984,0.00008340828,0.0002306156,0.000117647076,0.00017073969,0.00009824588],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000013968644,0.0000029334838,8.589782e-9,0.031648606,0.000071171366,0.0000042535835,0.000009246562,0.00009117836,0.02074113,0.0009099952,0.00021563092,0.94630444],"study_design_scores_gemma":[0.00013341825,0.000016290478,8.6619997e-7,0.004560445,0.00007463849,0.0000181055,0.0000054863085,0.00010555369,0.0033428955,0.00024160738,0.99109924,0.0004014823],"about_ca_topic_score_codex":0.0000046264877,"about_ca_topic_score_gemma":4.9606535e-7,"teacher_disagreement_score":0.9908836,"about_ca_system_score_codex":0.00017008546,"about_ca_system_score_gemma":0.00011669166,"threshold_uncertainty_score":0.99983484},"labels":[],"label_agreement":null},{"id":"W2606923317","doi":"10.1002/adma.201605646","title":"0D–2D Quantum Dot: Metal Dichalcogenide Nanocomposite Photocatalyst Achieves Efficient Hydrogen Generation","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Photocatalysis Techniques","field":"Energy","cited_by":116,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Science Fund for Creative Research Groups","keywords":"Photocatalysis; Materials science; Nanocomposite; Nanosheet; Hydrogen production; Visible spectrum; Quantum dot; Nanotechnology; Water splitting; Hydrogen; Catalysis; Photocatalytic water splitting; Chemical engineering; Optoelectronics; Chemistry","score_opus":0.019796635055777997,"score_gpt":0.2906372719632379,"score_spread":0.2708406369074599,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2606923317","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992788,0.0002504779,0.001923587,0.00007585994,0.00078037113,0.0012332008,0.0001526196,0.00058282533,0.0022130236],"genre_scores_gemma":[0.9891437,0.000100177494,0.008237383,0.00011403007,0.0003976528,0.0008416952,0.00049564283,0.0001401244,0.00052957295],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9967628,0.00015409477,0.0008803623,0.00094813487,0.00057018886,0.00068442506],"domain_scores_gemma":[0.9964089,0.000050564617,0.00090243475,0.002256859,0.0001982232,0.00018301744],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00062158005,0.0005763091,0.0008317542,0.00016868234,0.0009945454,0.00031539594,0.0010447119,0.00020157736,0.00029607245],"category_scores_gemma":[0.0002512264,0.0005386799,0.00022637012,0.00011583081,0.00025166335,0.0007559084,0.0004738625,0.00013209153,0.00048513734],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015659221,0.00011658306,0.000010288318,0.000030314164,0.00012058489,0.000032325817,0.00010237931,0.003927427,0.98731375,0.005104357,0.000042956508,0.0030424416],"study_design_scores_gemma":[0.0007318497,0.0000967093,0.00011736575,0.000047405218,0.00013369111,0.000029002898,0.00001826023,0.00047458155,0.98368853,0.002257843,0.011787748,0.00061701203],"about_ca_topic_score_codex":0.0006507346,"about_ca_topic_score_gemma":0.00020002777,"teacher_disagreement_score":0.011744792,"about_ca_system_score_codex":0.00018700247,"about_ca_system_score_gemma":0.000045568,"threshold_uncertainty_score":0.99970645},"labels":[],"label_agreement":null},{"id":"W2608979482","doi":"10.1002/adma.201700414","title":"Mapping Energy Levels for Organic Heterojunctions","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University of Toronto; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China; Canada Research Chairs","keywords":"Organic semiconductor; Materials science; Organic electronics; Heterojunction; OLED; Organic solar cell; Optoelectronics; Chemical physics; Vacuum level; Exciton; HOMO/LUMO; Ionization energy; Molecular orbital; Nanotechnology; Ionization; Molecule; Chemistry; Condensed matter physics; Physics; Polymer; Transistor","score_opus":0.016413007039991392,"score_gpt":0.23532145840207086,"score_spread":0.21890845136207948,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2608979482","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9264596,0.00028631923,0.066354476,0.000121007084,0.0041822647,0.00030074044,0.00021914607,0.00044726272,0.001629202],"genre_scores_gemma":[0.99774337,0.0001402445,0.0012095032,0.000047762333,0.00021698435,0.000063335385,0.000014159633,0.00005800833,0.0005066096],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999354,0.0000048723223,0.00016983929,0.00013571499,0.000062023515,0.00027354225],"domain_scores_gemma":[0.9994284,0.000021601452,0.000057307523,0.00040732438,0.00004489027,0.000040511422],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009375012,0.00012474717,0.00017325848,0.000028933227,0.00027364012,0.00011928073,0.00019758669,0.000059923237,0.00023443534],"category_scores_gemma":[0.000055425797,0.00013040421,0.000032158434,0.00002306978,0.000015717325,0.00018204864,0.000033979286,0.00003188911,0.000017903312],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00000370549,0.0000037142215,0.0000018550194,0.000031862706,0.000022317314,5.46833e-7,0.000022216538,0.00008989606,0.9969717,0.0015142034,0.00035645228,0.0009815004],"study_design_scores_gemma":[0.00029267135,0.000023667315,0.00009984288,0.000012677466,0.0000059268773,0.0000031889456,0.0000062707363,0.00007702894,0.9180003,0.0057572154,0.07557,0.00015119967],"about_ca_topic_score_codex":0.00000900317,"about_ca_topic_score_gemma":0.000043976794,"teacher_disagreement_score":0.07897142,"about_ca_system_score_codex":0.000067226465,"about_ca_system_score_gemma":0.000017621582,"threshold_uncertainty_score":0.5317729},"labels":[],"label_agreement":null},{"id":"W2611757052","doi":"10.1002/adma.201700312","title":"Photorechargeable High Voltage Redox Battery Enabled by Ta<sub>3</sub>N<sub>5</sub> and GaN/Si Dual‐Photoelectrode","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada; Boston College; National Science Foundation","keywords":"Materials science; Dual (grammatical number); Redox; Battery (electricity); Optoelectronics; Voltage; Nanotechnology; Engineering physics; Electrical engineering; Metallurgy; Power (physics)","score_opus":0.007732073224960282,"score_gpt":0.22869160558294696,"score_spread":0.22095953235798668,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2611757052","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99125856,0.00047406863,0.0035001645,0.00018100652,0.0011283832,0.001066836,0.0005172772,0.0015068084,0.00036691327],"genre_scores_gemma":[0.9931128,0.0040951343,0.0013071792,0.00014796757,0.00019578908,0.00061785197,0.00014247576,0.0002841554,0.0000966691],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99591094,0.00006953509,0.000744832,0.0010211336,0.000568407,0.0016851226],"domain_scores_gemma":[0.9971832,0.00017552036,0.00030964086,0.0019143265,0.00017045897,0.00024682732],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00054479326,0.00076508574,0.0010037825,0.00026364002,0.00060634466,0.0004949357,0.0008904363,0.0004552625,0.00012316069],"category_scores_gemma":[0.0006397862,0.00080271595,0.00008310711,0.00019572243,0.00033935625,0.0014519865,0.000511444,0.00052665337,0.00023087795],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016331201,0.000040957973,0.000028389835,0.00027863355,0.00008374568,0.00010121747,0.000027328582,0.0003581005,0.98463374,0.00006641761,0.0043524895,0.009865639],"study_design_scores_gemma":[0.0013023419,0.00019051689,0.0003050264,0.0001415051,0.00002756019,0.00004250328,0.000027033908,0.00015011315,0.98845816,0.003016968,0.0054795346,0.00085875305],"about_ca_topic_score_codex":0.000028118726,"about_ca_topic_score_gemma":0.000023588293,"teacher_disagreement_score":0.009006886,"about_ca_system_score_codex":0.0003894295,"about_ca_system_score_gemma":0.000044745735,"threshold_uncertainty_score":0.9994424},"labels":[],"label_agreement":null},{"id":"W2611970084","doi":"10.1002/adma.201700152","title":"Ambient Protection of Few‐Layer Black Phosphorus via Sequestration of Reactive Oxygen Species","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":170,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Department of Local Government and Communities, Government of Western Australia; National Computational Infrastructure; Australian Research Council; Ontario Ministry of Natural Resources and Forestry","keywords":"Black phosphorus; Materials science; Degradation (telecommunications); Layer (electronics); Nanotechnology; Reactive oxygen species; Ionic bonding; Ionic liquid; Environmental chemistry; Ion; Computer science; Optoelectronics; Catalysis; Chemistry; Organic chemistry; Telecommunications","score_opus":0.03447946810095302,"score_gpt":0.28747924887953347,"score_spread":0.25299978077858043,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2611970084","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949156,0.0000136345125,0.0020843006,0.00013903622,0.0006832771,0.00080708636,0.00024228159,0.000049137754,0.0010656416],"genre_scores_gemma":[0.9960354,0.00005519018,0.00332811,0.000011589612,0.00012346008,0.00015917969,0.000022360813,0.000022517124,0.00024218854],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99853057,0.000060456932,0.0005862174,0.00032262618,0.0002826892,0.00021742267],"domain_scores_gemma":[0.9977304,0.000019079194,0.0011432124,0.00074834435,0.00031248503,0.00004649956],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00048525678,0.00017410248,0.00041149542,0.000040388008,0.00022883985,0.00011342607,0.00033828605,0.00008786981,0.00048858655],"category_scores_gemma":[0.00014049419,0.00015651454,0.000047759655,0.00004206551,0.0002886562,0.0005575051,0.00011652028,0.00003217269,0.0000774771],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018564347,0.000079290854,0.000012037972,0.00008882123,0.00000803649,7.351543e-7,0.00015282136,0.000048584916,0.99566275,0.0033352869,0.000028507495,0.000397508],"study_design_scores_gemma":[0.00034355454,0.00013059942,0.009088452,0.0000737207,0.000021830105,0.00000226305,0.000060593786,0.0000048651486,0.98380536,0.0053062732,0.0010087877,0.00015368836],"about_ca_topic_score_codex":0.00047442672,"about_ca_topic_score_gemma":0.000014646311,"teacher_disagreement_score":0.011857354,"about_ca_system_score_codex":0.00006155084,"about_ca_system_score_gemma":0.000048254547,"threshold_uncertainty_score":0.6382478},"labels":[],"label_agreement":null},{"id":"W2612325629","doi":"10.1002/adma.201700749","title":"Pseudohalide‐Exchanged Quantum Dot Solids Achieve Record Quantum Efficiency in Infrared Photovoltaics","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":97,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University of Toronto; Natural Sciences and Engineering Research Council of Canada; Nederlandse Organisatie voor Wetenschappelijk Onderzoek","keywords":"Materials science; Photovoltaics; Quantum dot; Infrared; Optoelectronics; Quantum; Nanotechnology; Photovoltaic system; Engineering physics; Optics; Quantum mechanics; Physics; Electrical engineering","score_opus":0.03263704641175861,"score_gpt":0.28305079554751195,"score_spread":0.2504137491357533,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2612325629","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9923615,0.00033348514,0.00012090495,0.00038448907,0.00416864,0.000705374,0.00022063401,0.00021189812,0.0014930632],"genre_scores_gemma":[0.9963085,0.0005902097,0.001632764,0.00021393574,0.00028607092,0.00024942608,0.00001544515,0.000089243,0.00061441207],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9959557,0.00036300707,0.0010968281,0.0009163549,0.0005968986,0.0010712304],"domain_scores_gemma":[0.99691474,0.00019135176,0.00083868066,0.0017121194,0.00016626102,0.00017681732],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0021781374,0.0005318829,0.0010032665,0.00018641875,0.000826265,0.0008512988,0.0014312039,0.00024050694,0.0018287747],"category_scores_gemma":[0.0015184171,0.0004447731,0.00011187851,0.00011382253,0.00040026224,0.0012630516,0.00046736805,0.00017541021,0.0007631811],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005992055,0.00013087677,0.00013258804,0.00012651531,0.0000068311156,0.000044648736,0.0005225014,0.000029020961,0.995163,0.001823006,0.00042945697,0.0009923314],"study_design_scores_gemma":[0.0010259027,0.0003152945,0.0014577839,0.0003248365,0.00001899083,0.000014115258,0.00023507382,0.00020967812,0.97554976,0.013127472,0.007042944,0.0006781433],"about_ca_topic_score_codex":0.0011112668,"about_ca_topic_score_gemma":0.00022855154,"teacher_disagreement_score":0.019613253,"about_ca_system_score_codex":0.00014690487,"about_ca_system_score_gemma":0.00011904521,"threshold_uncertainty_score":0.9998004},"labels":[],"label_agreement":null},{"id":"W2612333823","doi":"10.1002/adma.201701165","title":"Enhanced Solar‐to‐Hydrogen Generation with Broadband Epsilon‐Near‐Zero Nanostructured Photocatalysts","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Photocatalysis Techniques","field":"Energy","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; King Abdullah University of Science and Technology; University of Toronto","keywords":"Materials science; Nanotechnology; Hydrogen; Zero (linguistics); Broadband; Chemical engineering; Optoelectronics; Optics","score_opus":0.013315344184555352,"score_gpt":0.27720356695459525,"score_spread":0.26388822277003987,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2612333823","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97894734,0.00005057499,0.0154593075,0.000069730166,0.0005900152,0.0016446927,0.00009928672,0.0004958051,0.002643241],"genre_scores_gemma":[0.890179,0.00003130004,0.10737677,0.00029940944,0.00008416537,0.0008450523,0.00027958836,0.00014403518,0.000760681],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970679,0.00007851617,0.0006408508,0.0009965515,0.0005335471,0.00068257697],"domain_scores_gemma":[0.99635035,0.000028257855,0.00068749883,0.0023816777,0.00031142056,0.00024080751],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00029166215,0.00057192484,0.0007874424,0.00011791461,0.00094440964,0.00049976655,0.00091347005,0.00021706337,0.00034061342],"category_scores_gemma":[0.0003259995,0.0004991156,0.000090757356,0.00014610797,0.00022290915,0.0010781484,0.00026149157,0.00012650237,0.00022665196],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043987957,0.000035477864,0.0000105927975,0.000029303317,0.000080756625,0.000024710882,0.00021121441,0.0026939826,0.9904371,0.0003995112,0.00017846854,0.005459033],"study_design_scores_gemma":[0.0010635593,0.00023100956,0.00020410542,0.000082152605,0.000062758016,0.000027386184,0.000010512973,0.000045891673,0.98578143,0.0026880282,0.009128968,0.0006742175],"about_ca_topic_score_codex":0.0005440104,"about_ca_topic_score_gemma":0.00069104857,"teacher_disagreement_score":0.09191746,"about_ca_system_score_codex":0.00018035652,"about_ca_system_score_gemma":0.000084175575,"threshold_uncertainty_score":0.999746},"labels":[],"label_agreement":null},{"id":"W2613222959","doi":"10.1002/adma.201700671","title":"Vertically Aligned Niobium Nanowire Arrays for Fast‐Charging Micro‐Supercapacitors","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Supercapacitor; Nanowire; Niobium; Nanotechnology; Optoelectronics; Electrochemistry; Electrode; Metallurgy","score_opus":0.01819421765300891,"score_gpt":0.2690705603521127,"score_spread":0.25087634269910375,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2613222959","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98321843,0.000052496303,0.0047446084,0.00048790954,0.009353916,0.00088124245,0.0004655927,0.00025115095,0.000544629],"genre_scores_gemma":[0.9657518,0.00004113623,0.031790923,0.0002314387,0.0013235172,0.0004381943,0.000058599515,0.00009021163,0.0002741634],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972436,0.00010385122,0.0007128827,0.0007680529,0.00037407744,0.0007975594],"domain_scores_gemma":[0.99772316,0.000113989496,0.00036184175,0.0012781591,0.0003430381,0.00017980831],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00097104337,0.0004058578,0.00065079663,0.000073486495,0.0012189491,0.0009907978,0.0009401287,0.00019500095,0.0009786453],"category_scores_gemma":[0.0008118228,0.00036881297,0.00012340597,0.000039687126,0.00029307377,0.0013337183,0.00017433945,0.000038210146,0.00047238942],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025619738,0.000051919913,0.000036785328,0.00011211484,0.000012342654,0.0000033191404,0.0002880091,0.0000063721445,0.9960768,0.0020095017,0.00048479924,0.000661821],"study_design_scores_gemma":[0.0010646677,0.00012191429,0.0005838239,0.00011153454,0.000038390666,0.000010865029,0.00017061493,0.000009062142,0.98767996,0.0022593385,0.007462582,0.00048726003],"about_ca_topic_score_codex":0.00007566629,"about_ca_topic_score_gemma":0.000007884762,"teacher_disagreement_score":0.027046314,"about_ca_system_score_codex":0.0001383028,"about_ca_system_score_gemma":0.00007487989,"threshold_uncertainty_score":0.9999346},"labels":[],"label_agreement":null},{"id":"W2619012812","doi":"10.1002/adma.201700060","title":"Hierarchically Enhanced Impact Resistance of Bioinspired Composites","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Calcium Carbonate Crystallization and Inhibition","field":"Materials Science","cited_by":384,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Naval Research; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada","keywords":"Conch; Materials science; Shell (structure); Hierarchy; Composite material; Lamellar structure; Structural engineering; Nanotechnology; Engineering; Geology","score_opus":0.012414171356170787,"score_gpt":0.2914120320449134,"score_spread":0.2789978606887426,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2619012812","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9916048,0.000052730004,0.0017438326,0.00015093469,0.0005385323,0.00025470753,0.00030598312,0.00008956705,0.00525889],"genre_scores_gemma":[0.99434507,0.000051650328,0.0050569247,0.00006190067,0.000078092795,0.000023717721,0.000047678182,0.000024205312,0.0003107549],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985357,0.00007251515,0.00048369044,0.00031842783,0.00031830938,0.00027133725],"domain_scores_gemma":[0.9982657,0.000047900638,0.0006046786,0.00072795694,0.00026590234,0.00008787893],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003543755,0.00017977589,0.0003870584,0.00005982485,0.00028233152,0.0002062413,0.00039371653,0.00007490448,0.0011481632],"category_scores_gemma":[0.0003626066,0.00015570254,0.00007814976,0.00004841519,0.0002948486,0.00054841576,0.00012000899,0.0000367409,0.00005083491],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034538395,0.0000394178,0.00001431727,0.000065639164,0.000004639224,0.0000021977144,0.00006628649,0.000057133744,0.9966024,0.0025715327,0.00010409449,0.00012694506],"study_design_scores_gemma":[0.00072671025,0.00007905924,0.0032698622,0.00013987192,0.0000090713,0.0000015854963,0.000008703882,0.000004757788,0.9926849,0.0023104378,0.00058333256,0.00018169869],"about_ca_topic_score_codex":0.000029024164,"about_ca_topic_score_gemma":0.000027732398,"teacher_disagreement_score":0.0049481345,"about_ca_system_score_codex":0.00006570966,"about_ca_system_score_gemma":0.00006074308,"threshold_uncertainty_score":0.9997649},"labels":[],"label_agreement":null},{"id":"W2624371094","doi":"10.1002/adma.201606467","title":"Tunable Photocontrolled Motions Using Stored Strain Energy in Malleable Azobenzene Liquid Crystalline Polymer Actuators","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":385,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Fonds Québécois de la Recherche sur la Nature et les Technologies; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Azobenzene; Materials science; Photoisomerization; Polymer; Actuator; Mechanical energy; Chemical physics; Composite material; Isomerization; Thermodynamics; Physics; Chemistry","score_opus":0.01369021334763541,"score_gpt":0.24528022773198238,"score_spread":0.23159001438434698,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2624371094","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94659793,0.00031619525,0.049090613,0.000033610653,0.0019342961,0.00069476647,0.00034508598,0.00032473746,0.00066276995],"genre_scores_gemma":[0.9915564,0.00036601292,0.007036003,0.0000487984,0.00022141605,0.0002416716,0.000040389325,0.00013150796,0.00035780223],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99812514,0.00004193615,0.00060536584,0.00035921804,0.00019755191,0.0006707934],"domain_scores_gemma":[0.99881536,0.000024570745,0.00022305688,0.0007337317,0.00006780223,0.00013548769],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028441453,0.0003772158,0.00069056737,0.00013321513,0.00026680238,0.00017196973,0.00036801014,0.00017158472,0.0006499202],"category_scores_gemma":[0.000105241095,0.00038692777,0.00006760522,0.00006485136,0.0000351089,0.0007780572,0.00010984802,0.00007817521,0.000011023724],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019326882,0.000037318234,4.5874947e-7,0.00006593761,0.00002851547,0.000024430225,0.000033948807,0.0288875,0.96761954,0.0024094312,0.000013127879,0.00068652997],"study_design_scores_gemma":[0.0025140888,0.00008148355,0.000014342584,0.00014333421,0.000022936349,0.000007631374,0.000053067797,0.0027985857,0.9893076,0.0021171016,0.0024945682,0.00044530325],"about_ca_topic_score_codex":0.00020746088,"about_ca_topic_score_gemma":0.00014936662,"teacher_disagreement_score":0.044958476,"about_ca_system_score_codex":0.00021069961,"about_ca_system_score_gemma":0.000049341765,"threshold_uncertainty_score":0.99985826},"labels":[],"label_agreement":null},{"id":"W2698048717","doi":"10.1002/adma.201700790","title":"Spatially Resolved Large Magnetization in Ultrathin BiFeO<sub>3</sub>","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"Oak Ridge National Laboratory; Office of Science; Argonne National Laboratory; Basic Energy Sciences; UT-Battelle; Battelle; Laboratory Directed Research and Development; U.S. Department of Energy","keywords":"Materials science; Magnetization; Condensed matter physics; Nanotechnology; Magnetic field","score_opus":0.011350838777859463,"score_gpt":0.2618276546749565,"score_spread":0.250476815897097,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2698048717","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99277514,0.00008778633,0.0006338902,0.00025527037,0.003971571,0.00070301833,0.0002770088,0.00016597786,0.0011303577],"genre_scores_gemma":[0.9959684,0.00045702627,0.0026906119,0.00017481834,0.00027840698,0.000110382825,0.00008486963,0.000069041314,0.00016643519],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99701774,0.00021423983,0.00090340956,0.000688028,0.00043269014,0.0007438818],"domain_scores_gemma":[0.9978187,0.0000608089,0.00070656475,0.0011000242,0.00017861502,0.00013526974],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0017174317,0.00035993627,0.000618108,0.00014080961,0.0005396961,0.00070860184,0.0007205983,0.00029821444,0.0009533506],"category_scores_gemma":[0.0008065485,0.00032386798,0.00005698142,0.00007708247,0.00013947605,0.000843304,0.0002705721,0.00011030704,0.000661607],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021995416,0.00010202129,0.00007339922,0.00007568403,0.000004834551,0.00004934651,0.0001689784,0.00017713482,0.9961506,0.0018376216,0.00009737069,0.0010430209],"study_design_scores_gemma":[0.001903939,0.000081891136,0.0038798547,0.00018643898,0.000015198504,0.0000069263724,0.00001949795,0.000040317944,0.9890439,0.002085758,0.0023185834,0.0004177314],"about_ca_topic_score_codex":0.00016552357,"about_ca_topic_score_gemma":0.0003081527,"teacher_disagreement_score":0.007106771,"about_ca_system_score_codex":0.000092739734,"about_ca_system_score_gemma":0.00009236642,"threshold_uncertainty_score":0.9999599},"labels":[],"label_agreement":null},{"id":"W2708509205","doi":"10.1002/adma.201700533","title":"Skin‐Inspired Multifunctional Autonomic‐Intrinsic Conductive Self‐Healing Hydrogels with Pressure Sensitivity, Stretchability, and 3D Printability","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":675,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba; Children's Hospital Research Institute of Manitoba; Research Manitoba","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Self-healing hydrogels; Self-healing; Electrical conductor; Pressure sensitive; Nanotechnology; Biomedical engineering; Composite material; Optoelectronics; Polymer chemistry; Medicine; Adhesive","score_opus":0.011609078378728103,"score_gpt":0.2317182014051598,"score_spread":0.2201091230264317,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2708509205","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959355,0.000049475606,0.0011744043,0.000046792666,0.0009921701,0.00050125195,0.00022629577,0.0007011256,0.0003729616],"genre_scores_gemma":[0.97310597,0.000040616822,0.026411116,0.000021207192,0.00020292301,0.00006857114,0.00002798258,0.00008081943,0.00004080232],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981328,0.00011266119,0.00045408186,0.0006184373,0.00021474624,0.00046725632],"domain_scores_gemma":[0.99847406,0.00016574368,0.00023087196,0.00081584096,0.0001579974,0.00015547973],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00053807406,0.00041938186,0.0006399103,0.000050939478,0.00044485636,0.0002650655,0.00015997818,0.00014505643,0.00007484953],"category_scores_gemma":[0.00026302054,0.00038720385,0.000039417522,0.00003277045,0.0002766732,0.0009422365,0.00017743072,0.0001278927,0.0000123509935],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021266384,0.000059443282,0.0010198414,0.00036839407,0.00017633196,0.000020007225,0.00033011576,0.11900988,0.8747875,0.00043974715,0.0000052383857,0.003570799],"study_design_scores_gemma":[0.0016627858,0.000105312334,0.04412441,0.00014339708,0.00010199931,0.000094311705,0.00007119926,0.0022974436,0.9476282,0.0012611644,0.001782459,0.000727301],"about_ca_topic_score_codex":0.00016544561,"about_ca_topic_score_gemma":0.00009982024,"teacher_disagreement_score":0.11671244,"about_ca_system_score_codex":0.00012625106,"about_ca_system_score_gemma":0.00003867286,"threshold_uncertainty_score":0.99985796},"labels":[],"label_agreement":null},{"id":"W2725539355","doi":"10.1002/adma.201702350","title":"Chloride Passivation of ZnO Electrodes Improves Charge Extraction in Colloidal Quantum Dot Photovoltaics","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Passivation; Materials science; Photovoltaics; Quantum dot; Electrode; Zinc; Band gap; Nanoparticle; Colloid; Energy conversion efficiency; Optoelectronics; Nanotechnology; Layer (electronics); Solar cell; Chemical engineering; Photovoltaic system; Metallurgy; Chemistry","score_opus":0.019991584944596127,"score_gpt":0.28121785288170886,"score_spread":0.26122626793711273,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2725539355","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9976099,0.00011791278,0.000045530327,0.00013231787,0.0013758513,0.00035204826,0.000074557065,0.00005122431,0.00024066113],"genre_scores_gemma":[0.9985733,0.00036192883,0.0005168676,0.000029293393,0.00015598902,0.000113877984,0.000009307232,0.000028530954,0.00021087422],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982846,0.00008276469,0.00061163976,0.00035194756,0.00029389342,0.0003751574],"domain_scores_gemma":[0.9984131,0.00008413499,0.00075798057,0.00055896456,0.00014207112,0.000043755077],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00093996903,0.00020503534,0.00046308542,0.00008759089,0.00026394133,0.00021654897,0.00037232164,0.00010279944,0.00047387736],"category_scores_gemma":[0.00075841334,0.00017146568,0.00004467703,0.000048083097,0.0001388699,0.0011013203,0.00007547221,0.000060292205,0.00006701998],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006141714,0.00006525987,0.0000902337,0.000106150765,0.000004403845,0.0000021923347,0.00012938335,0.000006142842,0.99659866,0.0016574372,0.000036917463,0.00068907405],"study_design_scores_gemma":[0.0004555998,0.00013873623,0.0046016388,0.00011578228,0.000009770906,0.0000031384207,0.00007093848,0.000021561576,0.9910676,0.002165869,0.0011376513,0.00021173018],"about_ca_topic_score_codex":0.00066147454,"about_ca_topic_score_gemma":0.000089940775,"teacher_disagreement_score":0.0055310503,"about_ca_system_score_codex":0.00008114877,"about_ca_system_score_gemma":0.00007071404,"threshold_uncertainty_score":0.6992167},"labels":[],"label_agreement":null},{"id":"W2734451898","doi":"10.1002/adma.201702526","title":"Defect Engineering of Chalcogen‐Tailored Oxygen Electrocatalysts for Rechargeable Quasi‐Solid‐State Zinc–Air Batteries","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":203,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Chalcogen; Oxygen evolution; Zinc; Oxygen; Solid-state; Nanotechnology; Chemical engineering; Inorganic chemistry; Metallurgy; Engineering physics; Electrochemistry; Electrode; Organic chemistry; Chemistry; Physical chemistry","score_opus":0.016937991006438505,"score_gpt":0.2810532515050039,"score_spread":0.2641152604985654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2734451898","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9292052,0.00040904418,0.06681821,0.00021170726,0.000766754,0.0011013751,0.00029167923,0.0010303938,0.00016567625],"genre_scores_gemma":[0.98325497,0.0004983229,0.015221964,0.000026633605,0.000062914936,0.00058706966,0.00005538955,0.00015307662,0.00013966458],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978757,0.000016937041,0.0005507638,0.00042099183,0.0002583555,0.0008772517],"domain_scores_gemma":[0.99815637,0.000132018,0.00021043555,0.0012443382,0.000174164,0.00008265085],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003822488,0.0003766594,0.00069730775,0.00020222634,0.00020404377,0.000084686486,0.00087335013,0.00013575722,0.000044604094],"category_scores_gemma":[0.000772925,0.00039190307,0.00012535918,0.00010666794,0.000112307345,0.00070793973,0.0002345161,0.00013880419,0.00003360628],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010614067,0.000017948603,0.000018315517,0.0005013471,0.00010926854,0.0000066260764,0.000036804515,0.0060862503,0.9889334,0.00016486985,0.0002333837,0.0037856707],"study_design_scores_gemma":[0.000661717,0.00019065126,0.00023632709,0.00011412591,0.000016075122,0.00000847561,0.000018891045,0.0007461693,0.9897215,0.0017350188,0.0061604194,0.00039067195],"about_ca_topic_score_codex":0.000009107233,"about_ca_topic_score_gemma":0.0000101284595,"teacher_disagreement_score":0.054049797,"about_ca_system_score_codex":0.00016603654,"about_ca_system_score_gemma":0.000026704214,"threshold_uncertainty_score":0.9998533},"labels":[],"label_agreement":null},{"id":"W2734540745","doi":"10.1002/adma.201701153","title":"Chemically Addressable Perovskite Nanocrystals for Light‐Emitting Applications","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":165,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation; National Natural Science Foundation of China; Connaught Fund; King Abdullah University of Science and Technology; China Scholarship Council","keywords":"Materials science; Passivation; Perovskite (structure); Nanocrystal; Photoluminescence; Light-emitting diode; Nanotechnology; Polymer; Diode; Optoelectronics; Polymerization; Chemical engineering","score_opus":0.010487834648546942,"score_gpt":0.25721182910140833,"score_spread":0.2467239944528614,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2734540745","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9516276,0.00031289947,0.02787144,0.00052074174,0.00095701654,0.0024225523,0.0012091997,0.0010438915,0.0140346475],"genre_scores_gemma":[0.9807659,0.00011586379,0.014891065,0.000046253608,0.0004964501,0.0030443121,0.00010666666,0.00008160118,0.0004519268],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988245,0.0000070081605,0.00038927334,0.00029022593,0.00011316517,0.00037585583],"domain_scores_gemma":[0.99874854,0.000046378856,0.00015867321,0.0008434983,0.00011390727,0.00008900532],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021973588,0.00021139896,0.00032108047,0.000029895604,0.00053354516,0.00036056977,0.00048732804,0.000099433746,0.00015730095],"category_scores_gemma":[0.000092259994,0.00021292729,0.000057576166,0.000030554573,0.000046535686,0.00033271895,0.000084645646,0.000040019248,0.00008457374],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000098880755,0.000013930491,0.000003994912,0.00015857251,0.000016348367,2.630059e-7,0.000022011542,0.00015366635,0.9934302,0.0025601678,0.001064838,0.0025660961],"study_design_scores_gemma":[0.0003347527,0.00000847648,0.00010328729,0.000039251136,0.000015751646,0.0000020846917,0.000010456067,0.00004078105,0.79211706,0.0025197335,0.20459154,0.00021682888],"about_ca_topic_score_codex":0.0000049121372,"about_ca_topic_score_gemma":0.000003093095,"teacher_disagreement_score":0.2035267,"about_ca_system_score_codex":0.000050197592,"about_ca_system_score_gemma":0.000014289861,"threshold_uncertainty_score":0.8682923},"labels":[],"label_agreement":null},{"id":"W2735516942","doi":"10.1002/adma.201701035","title":"Intrinsic 3D Prestressing: A New Route for Increasing Strength and Improving Toughness of Hybrid Inorganic Biocements","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Silk-based biomaterials and applications","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fonds de recherche du Québec – Nature et technologies; Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft; Ministère du Développement Économique, de l’Innovation et de l’Exportation","keywords":"Materials science; Toughness; Composite material; Mechanical strength","score_opus":0.01720771401042858,"score_gpt":0.28137335906161,"score_spread":0.2641656450511814,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2735516942","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967991,0.00008674237,0.00096633314,0.00010159202,0.00068553607,0.0006651111,0.00059635116,0.00006888162,0.000030356623],"genre_scores_gemma":[0.9745242,0.000032065862,0.024958292,0.000030569598,0.00024462608,0.00008723601,0.00004552195,0.000034333043,0.0000431475],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99848205,0.000047864152,0.0005129992,0.0004497859,0.0001709356,0.00033639377],"domain_scores_gemma":[0.9982081,0.00009410857,0.0007855375,0.0006672219,0.00013357973,0.00011142117],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00044620043,0.00022222716,0.00042061455,0.000049107966,0.00046899822,0.00048626392,0.00041435778,0.000050815313,0.00011347584],"category_scores_gemma":[0.0005419669,0.00019962044,0.000030381414,0.000031479587,0.0001568029,0.00055886013,0.00028600646,0.000020760166,0.000007858818],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022553524,0.000045347733,0.00015969212,0.00017496129,0.000008820637,0.0000013658864,0.000033763008,0.000002466449,0.9871776,0.0003035501,0.000026354046,0.011840523],"study_design_scores_gemma":[0.0013125942,0.00008934896,0.0037241217,0.00015120022,0.000049303533,0.000009283252,0.000022898883,0.0000093308,0.9929081,0.0010660945,0.00043755164,0.00022015443],"about_ca_topic_score_codex":0.0007972952,"about_ca_topic_score_gemma":0.000017655648,"teacher_disagreement_score":0.02399196,"about_ca_system_score_codex":0.000042015075,"about_ca_system_score_gemma":0.00012974451,"threshold_uncertainty_score":0.81402856},"labels":[],"label_agreement":null},{"id":"W2740317677","doi":"10.1002/adma.201703057","title":"Promoting Effect of Ni(OH)<sub>2</sub> on Palladium Nanocrystals Leads to Greatly Improved Operation Durability for Electrocatalytic Ethanol Oxidation in Alkaline Solution","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":317,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University; Canadian Light Source (Canada)","funders":"Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Palladium; Materials science; Durability; Nanocrystal; Ethanol; Electrocatalyst; Inorganic chemistry; Chemical engineering; Catalysis; Metallurgy; Electrochemistry; Nanotechnology; Electrode; Composite material; Organic chemistry; Physical chemistry; Chemistry","score_opus":0.008816651990409279,"score_gpt":0.2603843827240387,"score_spread":0.2515677307336294,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2740317677","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99651897,0.000012401668,0.0007496264,0.00030377795,0.0004436325,0.0017970003,0.000014661861,0.00009879111,0.00006111845],"genre_scores_gemma":[0.99830896,0.000014455919,0.0004056102,0.00004984631,0.00012739486,0.0005228886,0.00045790995,0.00006996478,0.00004295784],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99744374,0.0002096372,0.0007484177,0.00068117626,0.00033022123,0.00058683724],"domain_scores_gemma":[0.99798423,0.00015508545,0.00059301,0.00087979605,0.00030031148,0.0000875661],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0017341515,0.0003639754,0.00066057907,0.0002246515,0.00027824694,0.000093327304,0.00035825183,0.00021049003,0.000012841965],"category_scores_gemma":[0.0017530384,0.00034465804,0.00009817897,0.00013871813,0.000054656044,0.00069892604,0.00009520417,0.00009261876,0.000025095183],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0020525053,0.00006496122,0.000050591083,0.00028562022,0.000024939207,0.0000012993345,0.00012001046,0.0006071052,0.9880224,0.00027898065,0.000008544968,0.008483028],"study_design_scores_gemma":[0.0024215828,0.0019525639,0.000649858,0.00018960566,0.00004701585,0.0000028930094,0.0000034876841,0.00040600504,0.99356824,0.00039464727,0.00004408289,0.0003200248],"about_ca_topic_score_codex":0.00042511677,"about_ca_topic_score_gemma":0.0011100807,"teacher_disagreement_score":0.008163003,"about_ca_system_score_codex":0.00062940625,"about_ca_system_score_gemma":0.00007230086,"threshold_uncertainty_score":0.9999005},"labels":[],"label_agreement":null},{"id":"W2740914543","doi":"10.1002/adma.201606566","title":"Topotactic Metal–Insulator Transition in Epitaxial SrFeO<i><sub>x</sub></i> Thin Films","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electronic and Structural Properties of Oxides","field":"Materials Science","cited_by":127,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Research Foundation of Korea; Japan Society for the Promotion of Science; Ministry of Science, ICT and Future Planning","keywords":"Materials science; Brownmillerite; Chemical physics; Epitaxy; Phase transition; Perovskite (structure); Phase diagram; Thin film; Transition metal; Phase (matter); Gibbs free energy; Nanotechnology; Crystallography; Chemical engineering; Condensed matter physics; Thermodynamics; Chemistry; Catalysis","score_opus":0.010793287619051633,"score_gpt":0.23937765993143562,"score_spread":0.228584372312384,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2740914543","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968681,0.00023388298,0.000055242257,0.00043662926,0.0014260622,0.00037229568,0.00005675546,0.0001043715,0.0004466947],"genre_scores_gemma":[0.9980046,0.00013712808,0.0013424844,0.00020581495,0.00015049562,0.000061087936,0.000013137802,0.00003230992,0.000052924137],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979752,0.00012110833,0.00050215714,0.00048464743,0.00032355473,0.000593376],"domain_scores_gemma":[0.998821,0.000043086733,0.00031593445,0.0006568946,0.000076360855,0.00008668632],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00060975313,0.00027442558,0.00048855663,0.000053812862,0.0004408613,0.0003256972,0.00054760854,0.0001246808,0.0004740801],"category_scores_gemma":[0.0003231706,0.00022707734,0.00007028759,0.000039163246,0.0001955071,0.0015430778,0.000095987474,0.00011815829,0.0002058852],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028691124,0.000022638222,0.00000736802,0.00005131091,0.0000069901107,0.000020024272,0.00018457885,0.00018906013,0.9969792,0.0007580711,0.00003913762,0.0014547245],"study_design_scores_gemma":[0.0008545719,0.00012156619,0.002239251,0.000072976625,0.000017963766,0.000015183697,0.000057056142,0.000020458521,0.9900216,0.0060941735,0.0001718887,0.00031332328],"about_ca_topic_score_codex":0.00017742655,"about_ca_topic_score_gemma":0.00008266662,"teacher_disagreement_score":0.0069575985,"about_ca_system_score_codex":0.000106820524,"about_ca_system_score_gemma":0.00007384181,"threshold_uncertainty_score":0.9259945},"labels":[],"label_agreement":null},{"id":"W2745706212","doi":"10.1002/adma.201606715","title":"Synthetic Control of Kinetic Reaction Pathway and Cationic Ordering in High‐Ni Layered Oxide Cathodes","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Brookhaven National Laboratory; Ministry of Trade, Industry and Energy; Vehicle Technologies Program; National Natural Science Foundation of China; Canadian Light Source; U.S. Department of Energy","keywords":"Materials science; Cationic polymerization; Oxide; Lithium (medication); Cathode; Transition metal; Nickel; Chemical engineering; Electrochemistry; Electrode; Physical chemistry; Catalysis; Metallurgy; Chemistry; Organic chemistry","score_opus":0.009659701397112148,"score_gpt":0.23981412742639927,"score_spread":0.23015442602928712,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2745706212","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9956556,0.00011980303,0.002619108,0.0000320506,0.0009270545,0.0003460334,0.00006971171,0.00008529705,0.00014534383],"genre_scores_gemma":[0.996106,0.00019858753,0.0034458227,0.0000136377075,0.000041974978,0.00011476218,0.000008155981,0.000045830937,0.000025225869],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99890834,0.00004599741,0.00046622325,0.00022132865,0.000117187905,0.0002408983],"domain_scores_gemma":[0.99912465,0.000060039536,0.00022008619,0.0005195908,0.000043815482,0.000031849257],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029991154,0.00018287222,0.0004123081,0.00007654719,0.00007403918,0.00006440975,0.00017145186,0.00006609338,0.000045237834],"category_scores_gemma":[0.00023657686,0.00019231449,0.000010380156,0.000026410846,0.00006802242,0.0004199484,0.000048708695,0.000042015385,0.000009467684],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004417213,0.000012773289,0.00017217174,0.00018774623,0.000011023998,0.0000035876988,0.0000481715,0.0046181516,0.99257296,0.0004517357,0.0000015861701,0.0018759142],"study_design_scores_gemma":[0.0011501646,0.000027674729,0.021346577,0.00020557451,0.000013216333,0.0000067128267,0.00001902276,0.00005524248,0.97456104,0.0022433787,0.00016428575,0.00020714386],"about_ca_topic_score_codex":0.00014209552,"about_ca_topic_score_gemma":0.000039660154,"teacher_disagreement_score":0.021174405,"about_ca_system_score_codex":0.000082690894,"about_ca_system_score_gemma":0.000009874921,"threshold_uncertainty_score":0.7842357},"labels":[],"label_agreement":null},{"id":"W2746665596","doi":"10.1002/adma.201770233","title":"Interfacial Magnetization: Spatially Resolved Large Magnetization in Ultrathin BiFeO<sub>3</sub> (Adv. Mater. 32/2017)","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"","keywords":"Multiferroics; Magnetization; Materials science; Condensed matter physics; Ferromagnetism; Piezoresponse force microscopy; Thin film; Magnetization reversal; Nanotechnology; Ferroelectricity; Optoelectronics; Magnetic field; Magnetic anisotropy; Physics","score_opus":0.013332945266307671,"score_gpt":0.2670993146602706,"score_spread":0.2537663693939629,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2746665596","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9874279,0.00012462266,0.0016041849,0.00036608306,0.0069264965,0.0011283022,0.0005752449,0.00026763362,0.0015795188],"genre_scores_gemma":[0.9943762,0.0006525966,0.0032800462,0.00022373321,0.0005380035,0.00017869365,0.0002490105,0.00011487653,0.00038687373],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9955154,0.0003247662,0.0014566615,0.0010445684,0.000635698,0.0010228708],"domain_scores_gemma":[0.99694437,0.000059015758,0.0010881403,0.0013843485,0.00032169552,0.000202438],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0017918426,0.00060137163,0.0009009584,0.00024138666,0.0007593876,0.0012780422,0.001092724,0.00048232102,0.0022431186],"category_scores_gemma":[0.0007571022,0.00056239695,0.00008767658,0.00013759425,0.00023995471,0.0013410379,0.00048211194,0.00017249031,0.0010277225],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00050756754,0.00015453863,0.00010916631,0.00015672384,0.000009305577,0.00007824376,0.0003756975,0.00032400884,0.99509746,0.0015787631,0.00023564343,0.0013728745],"study_design_scores_gemma":[0.002660299,0.00018369718,0.0043227863,0.0003222144,0.00003109073,0.000019828114,0.000039836985,0.00009253442,0.98598737,0.0015437155,0.0041096504,0.00068696606],"about_ca_topic_score_codex":0.00017533664,"about_ca_topic_score_gemma":0.00035845104,"teacher_disagreement_score":0.009110087,"about_ca_system_score_codex":0.00015416856,"about_ca_system_score_gemma":0.00013296478,"threshold_uncertainty_score":0.9997587},"labels":[],"label_agreement":null},{"id":"W2747704920","doi":"10.1002/adma.201703098","title":"Water‐Enabled Healing of Conducting Polymer Films","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":146,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Natural Sciences and Engineering Research Council of Canada; Fonds de recherche du Québec – Nature et technologies; CMC Microsystems","keywords":"PEDOT:PSS; Materials science; Polystyrene sulfonate; Biocompatibility; Conductive polymer; Electronics; Wetting; Stretchable electronics; Nanotechnology; Thin film; Polymer; Electrical conductor; Composite material; Electrical engineering","score_opus":0.030724359361643923,"score_gpt":0.2656827263225434,"score_spread":0.2349583669608995,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2747704920","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99312013,0.00013435031,0.0005265599,0.000026582127,0.0029294172,0.000100219775,0.00005040782,0.00030419164,0.0028081562],"genre_scores_gemma":[0.99346703,0.000071828654,0.0058628484,0.0000155661,0.00017468544,0.00002110711,0.000020091918,0.00007308376,0.0002937544],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99866205,0.000029411585,0.0004983204,0.00021738256,0.00014943595,0.00044340637],"domain_scores_gemma":[0.99898833,0.00005427649,0.00016278299,0.00064188626,0.0000805724,0.00007212256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002934911,0.00022791029,0.00048606057,0.000052283824,0.00028370708,0.0001186961,0.0003004097,0.00008413299,0.0004481698],"category_scores_gemma":[0.0002855208,0.00018970548,0.00004300989,0.000020029725,0.000101586134,0.0006036963,0.00008756514,0.000051843796,0.000038080274],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024961633,0.000006048554,0.000007948021,0.0001998392,0.000020001058,0.000009346301,0.00011136807,0.015682762,0.98293954,0.00043811798,0.00002472466,0.0005353374],"study_design_scores_gemma":[0.0003612597,0.000020755011,0.000041384345,0.00012599306,0.0000130502585,0.000011068858,0.00005032605,0.000045793015,0.9979636,0.00069507683,0.00042820792,0.00024350415],"about_ca_topic_score_codex":0.000076079385,"about_ca_topic_score_gemma":0.0000037196444,"teacher_disagreement_score":0.01563697,"about_ca_system_score_codex":0.00002283466,"about_ca_system_score_gemma":0.000007275858,"threshold_uncertainty_score":0.77359647},"labels":[],"label_agreement":null},{"id":"W2761766815","doi":"10.1002/adma.201700764","title":"The Electrical and Optical Properties of Organometal Halide Perovskites Relevant to Optoelectronic Performance","year":2017,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":210,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Perovskite (structure); Halide; Formamidinium; Optoelectronics; Band gap; Photodetector; Iodide; Nanotechnology; Inorganic chemistry; Chemistry","score_opus":0.03239098554436888,"score_gpt":0.28595538659774516,"score_spread":0.2535644010533763,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2761766815","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.06534748,0.93313783,0.000024049532,0.000021848096,0.00027184386,0.00087295985,0.000065600005,0.00010015532,0.00015823952],"genre_scores_gemma":[0.04828032,0.9503873,0.0004063635,0.0000033120455,0.00014019076,0.0005478919,0.000015352245,0.00008586215,0.00013342626],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9983224,0.00004063078,0.0007073963,0.00029724342,0.00017492009,0.00045736498],"domain_scores_gemma":[0.9989653,0.0000842814,0.00017747,0.00061472604,0.00006511824,0.00009309245],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00033357745,0.00038546967,0.0012705926,0.00007245678,0.00024291307,0.00022133767,0.00044369293,0.00014689674,0.000018054236],"category_scores_gemma":[0.00017858931,0.00023787135,0.00008485772,0.00010009126,0.00012136912,0.00012906808,0.00014473185,0.00013124099,0.0000530449],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001600468,0.000012792421,1.3664643e-7,0.0058709225,0.00008973356,8.0500814e-7,0.000019885052,0.000019441613,0.26185375,0.0007818796,0.00004482759,0.7312898],"study_design_scores_gemma":[0.00009595519,0.00009253697,0.000011264862,0.00244374,0.00018165975,0.00003615173,0.0000022789477,0.00000881586,0.15043391,0.000044733453,0.8462657,0.00038328915],"about_ca_topic_score_codex":0.000002482822,"about_ca_topic_score_gemma":0.0000022155357,"teacher_disagreement_score":0.84622085,"about_ca_system_score_codex":0.00009590967,"about_ca_system_score_gemma":0.00008731548,"threshold_uncertainty_score":0.97001123},"labels":[],"label_agreement":null},{"id":"W2762733127","doi":"10.1002/adma.201703627","title":"Enhanced Open‐Circuit Voltage in Colloidal Quantum Dot Photovoltaics via Reactivity‐Controlled Solution‐Phase Ligand Exchange","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":63,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Research Foundation of Korea","keywords":"Photovoltaics; Materials science; Dispersity; Quantum dot; Open-circuit voltage; Energy conversion efficiency; Nanotechnology; Reactivity (psychology); Colloid; Ligand (biochemistry); Phase (matter); Etching (microfabrication); Chemical engineering; Optoelectronics; Photovoltaic system; Voltage; Chemistry; Polymer chemistry; Organic chemistry","score_opus":0.041716274923276266,"score_gpt":0.309103027125484,"score_spread":0.2673867522022077,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2762733127","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9911567,0.0003838573,0.0012081016,0.00015452421,0.00245887,0.0020881933,0.00023590558,0.000118589065,0.0021952423],"genre_scores_gemma":[0.99662167,0.00035020307,0.00033088736,0.00014444022,0.00025601633,0.0009082336,0.000016067164,0.00007492565,0.0012975613],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99636436,0.00029718713,0.0010146692,0.0009063147,0.00050315994,0.0009143218],"domain_scores_gemma":[0.9968911,0.00023580862,0.001051316,0.0014455075,0.00019990947,0.00017637288],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0028535286,0.00050562,0.0015081619,0.00014182825,0.0009639757,0.001452441,0.0015904529,0.000216802,0.0014744682],"category_scores_gemma":[0.0013641842,0.0004230726,0.00011410114,0.000087424014,0.00030751064,0.0023488903,0.0006783415,0.00013825939,0.00041393968],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.003529473,0.0003922306,0.000008256198,0.00010464547,0.000017161754,0.000050063805,0.00042409645,0.0000047818007,0.9916677,0.0008553557,0.00012481988,0.0028213998],"study_design_scores_gemma":[0.011149518,0.00031279412,0.00020365899,0.00023048306,0.00003673481,0.000011593351,0.00008116422,0.00007317349,0.97939473,0.0042101447,0.003705304,0.0005907033],"about_ca_topic_score_codex":0.0017810677,"about_ca_topic_score_gemma":0.00079646264,"teacher_disagreement_score":0.012272988,"about_ca_system_score_codex":0.00020274846,"about_ca_system_score_gemma":0.00015986826,"threshold_uncertainty_score":0.9998221},"labels":[],"label_agreement":null},{"id":"W2765244315","doi":"10.1002/adma.201770291","title":"Self‐Healing: Water‐Enabled Healing of Conducting Polymer Films (Adv. Mater. 40/2017)","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"","keywords":"Materials science; PEDOT:PSS; Self-healing; Wetting; Polystyrene sulfonate; Polystyrene; Conductive polymer; Polymer; Self-healing material; Nanotechnology; Doping; Composite material; Optoelectronics","score_opus":0.05096226328335728,"score_gpt":0.32354324312313704,"score_spread":0.27258097983977975,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2765244315","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99448025,0.00023440359,0.00011882238,0.0006498668,0.002617558,0.0003969277,0.0001647433,0.0002392129,0.001098208],"genre_scores_gemma":[0.9878481,0.000052490774,0.010785782,0.00008974366,0.0002664022,0.00010402357,0.00003098869,0.000060184237,0.00076226215],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973376,0.00009663287,0.0008624103,0.0006301639,0.00033940843,0.00073380757],"domain_scores_gemma":[0.9973254,0.000103752376,0.00081578706,0.0013987868,0.00020837215,0.00014788966],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010347613,0.0003243492,0.0006566376,0.0000797708,0.0011704445,0.000401051,0.00082803663,0.00012906082,0.0017996895],"category_scores_gemma":[0.0002496833,0.00026194847,0.00008404416,0.000049364156,0.00025292355,0.0007698863,0.00037461173,0.00008802963,0.00024691474],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000060281447,0.00005776603,0.000018198883,0.00021435776,0.000014253045,0.0000066596235,0.0006215799,0.000023398135,0.99790233,0.00073880766,0.00008942476,0.00025291854],"study_design_scores_gemma":[0.0005434018,0.000048726273,0.000044007746,0.00013259091,0.000041192532,0.000027943854,0.00033337442,0.0000073513843,0.99649936,0.00057459105,0.0014119254,0.0003355544],"about_ca_topic_score_codex":0.00059164426,"about_ca_topic_score_gemma":0.0000094539955,"teacher_disagreement_score":0.01066696,"about_ca_system_score_codex":0.00004213648,"about_ca_system_score_gemma":0.00006976353,"threshold_uncertainty_score":0.99998325},"labels":[],"label_agreement":null},{"id":"W2766209405","doi":"10.1002/adma.201703764","title":"Nanoscale Manipulation of Spinel Lithium Nickel Manganese Oxide Surface by Multisite Ti Occupation as High‐Performance Cathode","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":156,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; General Motors of Canada; Western University; Canada Foundation for Innovation; Canadian Light Source","keywords":"Materials science; Spinel; Atomic layer deposition; Surface modification; Cathode; Faraday efficiency; Annealing (glass); Chemical engineering; Electrolyte; Nickel; Manganese; Oxide; Lithium (medication); Nanotechnology; Metallurgy; Layer (electronics); Electrode; Physical chemistry","score_opus":0.013102457479554743,"score_gpt":0.26809804205413923,"score_spread":0.2549955845745845,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2766209405","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939243,0.00009067354,0.0026402436,0.000025169025,0.002038393,0.0005021344,0.00029445637,0.00021723054,0.00026740713],"genre_scores_gemma":[0.98351884,0.00023263415,0.015045832,0.000039308743,0.0000883556,0.000050218343,0.00020502563,0.00009015823,0.00072963664],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982495,0.00004618054,0.0006858328,0.0003342987,0.00030704107,0.00037714746],"domain_scores_gemma":[0.99842614,0.000034127006,0.00044316475,0.00092043675,0.00011563506,0.000060475664],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00031527324,0.0003257417,0.00049103075,0.000050632843,0.0001892839,0.000102492595,0.00041148646,0.00013948292,0.00019801965],"category_scores_gemma":[0.00011252646,0.00034233104,0.000024185201,0.000044455453,0.00007981908,0.0012392128,0.00012229315,0.00006185833,0.00017936341],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000102831335,0.000025950854,0.0008957245,0.00032487497,0.00001924633,0.0000026688692,0.00005413556,0.016770763,0.9807483,0.000060986018,0.00027950213,0.00071501266],"study_design_scores_gemma":[0.00077106507,0.000051330677,0.024904873,0.00015923234,0.00002122852,0.0000046854916,0.000010391913,0.00018708619,0.9727427,0.00026121078,0.0005426079,0.0003435967],"about_ca_topic_score_codex":0.0001549733,"about_ca_topic_score_gemma":0.0000067505666,"teacher_disagreement_score":0.024009148,"about_ca_system_score_codex":0.0001236476,"about_ca_system_score_gemma":0.000009478719,"threshold_uncertainty_score":0.99990284},"labels":[],"label_agreement":null},{"id":"W2772892769","doi":"10.1002/adma.201705080","title":"Graphene Inks as Versatile Templates for Printing Tiled Metal Oxide Crystalline Films","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Bayer Canada; National Science Foundation","keywords":"Materials science; Graphene; Oxide; Template; Nanotechnology; Metal; Porosity; Intercalation (chemistry); Graphene oxide paper; Chemical engineering; Composite material; Inorganic chemistry; Metallurgy","score_opus":0.025594589324548,"score_gpt":0.3297961628868403,"score_spread":0.3042015735622923,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2772892769","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99529785,0.00004843437,0.0021382857,0.00024763626,0.00026577688,0.0009385181,0.00034065545,0.00014021853,0.00058262446],"genre_scores_gemma":[0.968817,0.000036784502,0.029771175,0.00005041947,0.000096052965,0.00071252725,0.00006554383,0.000036931906,0.00041358452],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982097,0.000042822365,0.0004061524,0.00047184378,0.0003015654,0.0005678779],"domain_scores_gemma":[0.99824893,0.00015699567,0.00037311183,0.000834706,0.00023397057,0.00015230081],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007781871,0.00021042585,0.0003676892,0.000070007496,0.0008962951,0.00044213815,0.00069873454,0.000079673024,0.0010684319],"category_scores_gemma":[0.0009564101,0.00018478383,0.00009474887,0.000055539273,0.00019326892,0.0005839932,0.00023932755,0.00005558653,0.00021623503],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000115542665,0.00004312945,0.000026838574,0.000058020658,0.00001623108,0.0000023263706,0.000028926643,0.00005112726,0.9943812,0.004651834,0.0002185397,0.00040631523],"study_design_scores_gemma":[0.00080857123,0.0000845821,0.00079878303,0.00004253791,0.000020364174,0.0000043750124,0.000065272994,0.000018803736,0.973313,0.020004397,0.004626509,0.00021280463],"about_ca_topic_score_codex":0.00016124983,"about_ca_topic_score_gemma":0.000026599237,"teacher_disagreement_score":0.02763289,"about_ca_system_score_codex":0.000022990904,"about_ca_system_score_gemma":0.00006534022,"threshold_uncertainty_score":0.99984473},"labels":[],"label_agreement":null},{"id":"W2775854755","doi":"10.1002/adma.201704407","title":"Artificial Muscles: Mechanisms, Applications, and Challenges","year":2017,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":1062,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Artificial muscle; Materials science; Actuator; Electrostriction; Nanotechnology; Polymer; Biomimetic materials; Nanocomposite; Elastomer; Fabrication; Nanomaterials; Nanowire; Electroactive polymers; Smart material; Piezoelectricity; Carbon nanotube; Shape-memory alloy; Composite material; Computer science","score_opus":0.1120158371661066,"score_gpt":0.32276848991312845,"score_spread":0.21075265274702187,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2775854755","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0000061187543,0.9950277,0.0013589279,0.0000055732858,0.0011384404,0.0007180051,0.00026963314,0.0006128535,0.0008627359],"genre_scores_gemma":[0.000028533397,0.991898,0.006170185,0.000004689644,0.000523922,0.00095470366,0.00014028694,0.0001945713,0.000085086926],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9981494,0.00006996375,0.00073661626,0.0004946256,0.00015463933,0.00039474483],"domain_scores_gemma":[0.9986607,0.00009870053,0.00030801483,0.00078108406,0.00004005551,0.000111485184],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00029498307,0.0005840926,0.0018161177,0.000119148404,0.00018742045,0.00017950988,0.00034166704,0.00034222766,0.000053105676],"category_scores_gemma":[0.000081984515,0.0005395048,0.000096182994,0.000036683574,0.000069574686,0.00023135789,0.00009956425,0.000110582936,0.00012887278],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000020205462,0.00000586243,4.5699047e-10,0.017644715,0.00004702623,0.000006648924,0.000009600033,0.000040739353,0.0036805754,0.007304048,0.000010096357,0.9712487],"study_design_scores_gemma":[0.000051875464,0.0000138364985,1.3576262e-7,0.0030149,0.00016055226,0.00003268866,0.000008340102,6.2471435e-7,0.004019536,0.0085877385,0.9835595,0.0005502932],"about_ca_topic_score_codex":0.0000022922632,"about_ca_topic_score_gemma":0.0000041162475,"teacher_disagreement_score":0.98354936,"about_ca_system_score_codex":0.00006728424,"about_ca_system_score_gemma":0.000025760677,"threshold_uncertainty_score":0.9997057},"labels":[],"label_agreement":null},{"id":"W2780485068","doi":"10.1002/adma.201705381","title":"Bright Surface‐Enhanced Raman Scattering with Fluorescence Quenching from Silica Encapsulated J‐Aggregate Coated Gold Nanoparticles","year":2017,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Raman scattering; Raman spectroscopy; Fluorescence; Nanoparticle; Colloidal gold; Nanotechnology; Analytical Chemistry (journal); Photochemistry; Optics; Chemistry; Organic chemistry","score_opus":0.012247766579132778,"score_gpt":0.24195562126154807,"score_spread":0.22970785468241528,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2780485068","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99795556,0.00008607578,0.00006657607,0.00040345406,0.00032923828,0.00045127282,0.0001877812,0.00029062972,0.00022941892],"genre_scores_gemma":[0.993435,0.000072729556,0.0059840204,0.00008382539,0.00009415714,0.00011810768,0.000023664397,0.00005173047,0.00013672527],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974525,0.00010808982,0.0005819923,0.00079352624,0.00038627788,0.00067759247],"domain_scores_gemma":[0.9976663,0.000104304876,0.00056067784,0.0013011863,0.00016295783,0.00020457641],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00039056796,0.0003646383,0.00054309843,0.000031016592,0.00090307475,0.00093272,0.0008546865,0.00009538045,0.00073321705],"category_scores_gemma":[0.0001270641,0.00028755268,0.00005282438,0.00008874113,0.0003626182,0.00095725106,0.00020570973,0.000082513485,0.0004236128],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015554308,0.000073995856,0.00022090087,0.00001836328,0.000015135702,0.000014291372,0.00016860227,0.00019552126,0.99675727,0.00024813443,0.00004258125,0.0020896634],"study_design_scores_gemma":[0.0008522783,0.00004763534,0.0070732627,0.0003052407,0.000041058294,0.000004730379,0.000053968863,0.000055397933,0.9901595,0.0006082871,0.00035231243,0.00044634458],"about_ca_topic_score_codex":0.00087985053,"about_ca_topic_score_gemma":0.00008190606,"teacher_disagreement_score":0.006852362,"about_ca_system_score_codex":0.000061740495,"about_ca_system_score_gemma":0.00005420873,"threshold_uncertainty_score":0.9999577},"labels":[],"label_agreement":null},{"id":"W2782616121","doi":"10.1002/adma.201705393","title":"Polymer‐Passivated Inorganic Cesium Lead Mixed‐Halide Perovskites for Stable and Efficient Solar Cells with High Open‐Circuit Voltage over 1.3 V","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":463,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan","funders":"National Natural Science Foundation of China","keywords":"Materials science; Trihalide; Polythiophene; Perovskite (structure); Passivation; Open-circuit voltage; Halide; Energy conversion efficiency; Acceptor; Annealing (glass); Optoelectronics; Chemical engineering; Polymer; Conductive polymer; Inorganic chemistry; Nanotechnology; Voltage; Chemistry; Composite material","score_opus":0.008179630095095331,"score_gpt":0.21552254744663757,"score_spread":0.20734291735154223,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2782616121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98761797,0.00012664234,0.009364695,0.000032822365,0.0006578305,0.00093171967,0.00082736794,0.00026170403,0.00017925385],"genre_scores_gemma":[0.996821,0.000054051307,0.0019472546,0.000082221304,0.00023398852,0.00033961347,0.000100762525,0.00011702303,0.00030408052],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99853057,0.000022301949,0.00037531828,0.00042422407,0.00014758778,0.0004999867],"domain_scores_gemma":[0.99918187,0.00006549759,0.00010962576,0.00041846334,0.000117902775,0.00010665527],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000203769,0.00031796307,0.0004462349,0.000068532405,0.0002276139,0.0003782085,0.00030776364,0.000098377415,0.0004345026],"category_scores_gemma":[0.00001859831,0.0002768783,0.000021442585,0.0001633601,0.00010982179,0.00028288848,0.00012686694,0.000044496584,0.000060403872],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000679284,0.00003779642,0.00000874125,0.00014457793,0.00003234586,0.0000013061109,0.00010148226,0.00030844694,0.9973657,0.0011693173,0.0004909069,0.00027145422],"study_design_scores_gemma":[0.0010966628,0.00014606009,0.00042128962,0.00006422168,0.000043149816,0.000004716232,0.00005074186,0.00013566854,0.9906623,0.00028577325,0.0066934503,0.0003960124],"about_ca_topic_score_codex":0.00014153011,"about_ca_topic_score_gemma":0.000051065555,"teacher_disagreement_score":0.00920304,"about_ca_system_score_codex":0.00006731806,"about_ca_system_score_gemma":0.000028805334,"threshold_uncertainty_score":0.99996835},"labels":[],"label_agreement":null},{"id":"W2782915047","doi":"10.1002/adma.201704446","title":"Slit Tubes for Semisoft Pneumatic Actuators","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Soft Robotics and Applications","field":"Engineering","cited_by":97,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Division of Materials Sciences and Engineering; Basic Energy Sciences; Natural Sciences and Engineering Research Council of Canada; U.S. Department of Energy; National Science Foundation","keywords":"Actuator; Pneumatic actuator; Materials science; Slit; Pneumatic artificial muscles; Elastomer; Fabrication; Bending; Tube (container); Soft robotics; Modulus; Artificial muscle; Mechanical engineering; Acoustics; Optics; Composite material; Physics; Engineering; Electrical engineering","score_opus":0.007881987406295489,"score_gpt":0.24076692755293833,"score_spread":0.23288494014664285,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2782915047","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8907755,0.00004710273,0.10638251,0.000058848407,0.0008581695,0.0004338491,0.00007749582,0.0004606602,0.0009058735],"genre_scores_gemma":[0.97166467,0.000025085896,0.027708769,0.000044358138,0.0002100728,0.000217448,0.00001820203,0.000035952915,0.00007544782],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9995047,0.00000303435,0.00016557123,0.00010426963,0.000053897238,0.0001685545],"domain_scores_gemma":[0.9996433,0.00006451068,0.000014372315,0.00018792941,0.000052189564,0.00003764534],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006740646,0.00009373701,0.0001322987,0.000021965596,0.00005942987,0.00003146022,0.00009015581,0.000035652134,0.00015244221],"category_scores_gemma":[0.000057020585,0.00009032434,0.000020760113,0.000050385977,0.000023526136,0.000070413524,0.000012241536,0.000014188536,0.00013218026],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000043609944,0.000007526107,0.0000049186037,0.00008544108,0.000015225534,9.434863e-8,0.00008697505,0.0005880001,0.9894843,0.003281186,0.0011840651,0.005257896],"study_design_scores_gemma":[0.00020075857,0.000029735758,0.000092746646,0.000026863549,0.000012409116,0.0000012996949,0.000018442572,0.00061730534,0.9633877,0.010153252,0.025308462,0.000151026],"about_ca_topic_score_codex":0.0000011294549,"about_ca_topic_score_gemma":0.0000013340667,"teacher_disagreement_score":0.08088917,"about_ca_system_score_codex":0.000024611218,"about_ca_system_score_gemma":0.0000056272575,"threshold_uncertainty_score":0.36833197},"labels":[],"label_agreement":null},{"id":"W2783980599","doi":"10.1002/adma.201702486","title":"Ultrahigh Rate and Long‐Life Sodium‐Ion Batteries Enabled by Engineered Surface and Near‐Surface Reactions","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":194,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Ontario Research Foundation; Canada Foundation for Innovation; Western University; National Natural Science Foundation of China; Canada Research Chairs","keywords":"Materials science; Ion; Diffusion; Graphene; Chemical engineering; Electrode; Diffusion barrier; Power density; Electron transfer; Chemical physics; Nanotechnology; Power (physics); Thermodynamics; Physical chemistry; Layer (electronics); Organic chemistry","score_opus":0.008461940166259917,"score_gpt":0.23095354853158087,"score_spread":0.22249160836532095,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2783980599","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906748,0.0004020216,0.004737826,0.00016791647,0.0025804322,0.00045276157,0.0003087879,0.00053037266,0.00014511023],"genre_scores_gemma":[0.9900445,0.0007855139,0.008087406,0.00017391356,0.00018818608,0.00003431033,0.00010563455,0.000117284224,0.00046327474],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99823576,0.00009177399,0.00055486435,0.00043277635,0.00016659209,0.00051822147],"domain_scores_gemma":[0.999088,0.00014593983,0.00011450349,0.0003937546,0.00009471831,0.00016306585],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00036567642,0.00041329119,0.00051496894,0.000028263124,0.00023409353,0.0002777177,0.00013912737,0.000133021,0.00060073176],"category_scores_gemma":[0.00014098077,0.00042466132,0.00001536345,0.00010688504,0.00024966098,0.00082776573,0.000088891524,0.00008198422,0.00009001855],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000094649666,0.000012917947,0.000058291855,0.00020683972,0.000044947818,0.000003216664,0.00016921059,0.00211059,0.99583614,0.00004786729,0.0012973842,0.000117945216],"study_design_scores_gemma":[0.0008502737,0.00009336199,0.00076259166,0.00009175832,0.000030183402,0.000016587714,0.000056163375,0.00007895396,0.97672296,0.00032838513,0.020485055,0.0004837327],"about_ca_topic_score_codex":0.000020620068,"about_ca_topic_score_gemma":0.0000044320773,"teacher_disagreement_score":0.01918767,"about_ca_system_score_codex":0.000065979264,"about_ca_system_score_gemma":0.000016157377,"threshold_uncertainty_score":0.99982053},"labels":[],"label_agreement":null},{"id":"W2784027388","doi":"10.1002/adma.201705778","title":"A Light Harvesting, Self‐Powered Monolith Tactile Sensor Based on Electric Field Induced Effects in MAPbI<sub>3</sub> Perovskite","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Institute for Nanotechnology; University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; University of Waterloo; Canada Foundation for Innovation","keywords":"Materials science; Monolith; Perovskite (structure); Electric field; Nanotechnology; Field (mathematics); Optoelectronics; Chemical engineering; Catalysis","score_opus":0.005760689409664562,"score_gpt":0.2118853410612673,"score_spread":0.20612465165160274,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2784027388","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99223536,0.000031695003,0.0010055997,0.000046422647,0.0020675974,0.00055886863,0.00001220607,0.0012328317,0.0028093886],"genre_scores_gemma":[0.9934541,0.00004018381,0.0051937257,0.0004066984,0.0004984088,0.00018910204,0.00001333559,0.00017359215,0.00003084929],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972909,0.00017774692,0.0006674989,0.0006175469,0.0003107002,0.0009355922],"domain_scores_gemma":[0.9985094,0.00039621475,0.00016876656,0.0006284827,0.000115478906,0.00018165616],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00031514195,0.0005821111,0.0007287101,0.00037087357,0.0001321381,0.00014059719,0.0002532433,0.00027757036,0.00006375417],"category_scores_gemma":[0.0007109272,0.00058357377,0.000070757014,0.00047303,0.000013071388,0.0004142212,0.00004306345,0.00021473285,0.00021612144],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022532645,0.00006827767,0.000029583398,0.00022999963,0.000022105105,0.000062218634,0.000119242126,0.005392784,0.99140555,0.00009839806,0.0000971068,0.0022493862],"study_design_scores_gemma":[0.0013977096,0.00057643687,0.0009983681,0.0003558239,0.000021980075,0.000011899343,0.000010507261,0.0012344746,0.99305034,0.00031732378,0.001375983,0.00064916327],"about_ca_topic_score_codex":0.000041150448,"about_ca_topic_score_gemma":0.000025490599,"teacher_disagreement_score":0.004188126,"about_ca_system_score_codex":0.00019986305,"about_ca_system_score_gemma":0.000040981136,"threshold_uncertainty_score":0.99966156},"labels":[],"label_agreement":null},{"id":"W2789705881","doi":"10.1002/adma.201705590","title":"Revisiting the Role of Polysulfides in Lithium–Sulfur Batteries","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":694,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Science Foundation of Zhejiang Province; Argonne National Laboratory; Office of Energy Efficiency; Waterloo Institute for Nanotechnology, University of Waterloo; Natural Sciences and Engineering Research Council of Canada; University of Chicago; National Natural Science Foundation of China; Office of Science; University of Waterloo; Office of Energy Efficiency and Renewable Energy; U.S. Department of Energy","keywords":"Polysulfide; Sulfur; Lithium (medication); Electrochemistry; Lithium–sulfur battery; Materials science; Nanotechnology; Chemistry; Electrode; Metallurgy; Medicine; Physical chemistry","score_opus":0.015112372907113846,"score_gpt":0.2657791243923619,"score_spread":0.25066675148524803,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2789705881","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0033464292,0.9939886,0.00003840065,0.000011941559,0.000854492,0.0005938347,0.00025667946,0.00039384238,0.00051579863],"genre_scores_gemma":[0.0032551857,0.99449825,0.0013503453,0.000008380934,0.00040559363,0.00027756096,0.000043646458,0.00013148159,0.00002954496],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9976319,0.0001071712,0.0012760472,0.0003501671,0.00017609366,0.00045861694],"domain_scores_gemma":[0.99852556,0.00021659734,0.00042777386,0.00074945,0.000055545235,0.000025089004],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00044903162,0.00054975157,0.0019974231,0.00019407904,0.000055244396,0.00007380377,0.0006341779,0.00029593764,0.0001341278],"category_scores_gemma":[0.00020483241,0.00037166564,0.00014303485,0.00028527784,0.00019620704,0.00023100126,0.00023397499,0.000174797,0.00005083212],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00000845049,0.0000055694395,0.0000010405953,0.014881728,0.00006820843,0.000007202073,0.00005637226,0.000030288104,0.045154408,0.0006298298,0.00004550483,0.9391114],"study_design_scores_gemma":[0.000075908145,0.000018492674,0.0000028879635,0.010893255,0.000075063246,0.000018207516,0.000079995385,5.9787385e-7,0.15024291,0.0021677974,0.836046,0.00037889168],"about_ca_topic_score_codex":0.000008048505,"about_ca_topic_score_gemma":0.0000026506268,"teacher_disagreement_score":0.9387325,"about_ca_system_score_codex":0.000094605355,"about_ca_system_score_gemma":0.000030346768,"threshold_uncertainty_score":0.9998735},"labels":[],"label_agreement":null},{"id":"W2790491312","doi":"10.1002/adma.201705494","title":"Imaging Heterogeneously Distributed Photo‐Active Traps in Perovskite Single Crystals","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"FP7 People: Marie-Curie Actions; European Research Council; Natural Science Foundation of Jiangsu Province; Fonds Wetenschappelijk Onderzoek; Onderzoeksraad, KU Leuven; Belgian Federal Science Policy Office; Hercules Foundation","keywords":"Materials science; Crystallite; Monocrystalline silicon; Nanocrystal; Photoluminescence; Crystallinity; Perovskite (structure); Nanotechnology; Passivation; Optoelectronics; Chemical engineering; Silicon; Composite material; Metallurgy","score_opus":0.007440203048956357,"score_gpt":0.2251760584687883,"score_spread":0.21773585541983195,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2790491312","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994238,0.000085203435,0.0025565804,0.00004067735,0.00055859145,0.00034637714,0.00080955477,0.0003700042,0.0009949778],"genre_scores_gemma":[0.9981801,0.00003965296,0.0010760666,0.00006842451,0.00021055357,0.00017667112,0.00016795145,0.00006311965,0.000017478938],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986862,0.000033330634,0.000422374,0.0002942638,0.00012941794,0.00043440697],"domain_scores_gemma":[0.9994395,0.000029312452,0.00006517411,0.00031487577,0.00007469083,0.000076448494],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012974328,0.00024219316,0.00032766865,0.000083946434,0.00007812135,0.000108954926,0.00017662926,0.00006076476,0.00052784185],"category_scores_gemma":[0.000030508492,0.00025226036,0.000037421913,0.00017865375,0.000083477295,0.00028008147,0.000044286768,0.00004777451,0.00011104646],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032773987,0.000036091667,0.000012829695,0.000029508179,0.000009998907,0.0000076430315,0.00014922454,0.00038961502,0.99632984,0.00006331491,0.0001434554,0.0027957086],"study_design_scores_gemma":[0.0004553515,0.00003316207,0.001009319,0.000053662145,0.000008143158,0.000016227781,0.000057735546,0.00014436849,0.9795068,0.00064166205,0.017785486,0.00028811945],"about_ca_topic_score_codex":0.000031163163,"about_ca_topic_score_gemma":0.000046852823,"teacher_disagreement_score":0.01764203,"about_ca_system_score_codex":0.00016264284,"about_ca_system_score_gemma":0.00001070237,"threshold_uncertainty_score":0.99999297},"labels":[],"label_agreement":null},{"id":"W2790568107","doi":"10.1002/adma.201706442","title":"Electroconductive Biohybrid Collagen/Pristine Graphene Composite Biomaterials with Enhanced Biological Activity","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene and Nanomaterials Applications","field":"Engineering","cited_by":114,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trinity College","funders":"Advanced Materials and Bioengineering Research; Science Foundation Ireland","keywords":"Materials science; Graphene; Composite number; Nanotechnology; Composite material","score_opus":0.00957436211643692,"score_gpt":0.22586333598167305,"score_spread":0.21628897386523613,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2790568107","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98838335,0.000063865875,0.008400814,0.000029550054,0.0006766467,0.0007764681,0.0003398622,0.0008555702,0.0004738872],"genre_scores_gemma":[0.9927738,0.00016205241,0.0060916482,0.000043087708,0.0003178983,0.000430959,0.00009380619,0.00007181615,0.000014966575],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982694,0.00009065346,0.00041142048,0.00048598263,0.00017348788,0.00056906004],"domain_scores_gemma":[0.9989971,0.000047665388,0.00015165358,0.00046495578,0.00021765825,0.000120958226],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022581915,0.00040862916,0.0006090635,0.00013602337,0.00017769249,0.0001041181,0.00025136612,0.00013214427,0.00045915728],"category_scores_gemma":[0.000020059795,0.00032758908,0.0000484583,0.00044069404,0.00027330706,0.0002652283,0.00005577819,0.000025938072,0.0001711637],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003931229,0.00004977584,0.00001091389,0.000033817323,0.00008359211,0.0000032933349,0.00005070226,0.00002198037,0.9984007,0.0002869445,0.00009146088,0.0005737182],"study_design_scores_gemma":[0.00075003825,0.00040736844,0.0021760801,0.000032325486,0.000031063904,0.000019836581,0.00001157987,0.000004408368,0.99398464,0.001061753,0.0010671513,0.00045373917],"about_ca_topic_score_codex":0.000020202095,"about_ca_topic_score_gemma":0.000011682479,"teacher_disagreement_score":0.004416023,"about_ca_system_score_codex":0.00006969223,"about_ca_system_score_gemma":0.000025080719,"threshold_uncertainty_score":0.9999176},"labels":[],"label_agreement":null},{"id":"W2791180667","doi":"10.1002/adma.201706383","title":"Soft Somatosensitive Actuators via Embedded 3D Printing","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":577,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Naval Research; McMaster University; National Science Foundation","keywords":"Soft robotics; Actuator; Materials science; Haptic technology; Electrical conductor; Fluidics; Elastomer; Computer science; Tactile sensor; 3D printing; Curvature; Grippers; Robot; Nanotechnology; Mechanical engineering; Artificial intelligence; Electrical engineering; Engineering","score_opus":0.007435582378663935,"score_gpt":0.22572627293806094,"score_spread":0.218290690559397,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2791180667","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93631375,0.000020561902,0.05514726,0.000008022273,0.0028002856,0.00019288792,0.00002998124,0.0014187498,0.004068493],"genre_scores_gemma":[0.9592249,0.000022343898,0.039584797,0.00008903246,0.00075506757,0.00003196751,0.000023046252,0.00012490778,0.00014398451],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982964,0.00005234569,0.00049369136,0.0003524677,0.00020793876,0.00059716613],"domain_scores_gemma":[0.9991351,0.00008344865,0.00011215464,0.00038856277,0.00015943802,0.00012129368],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023724095,0.00035098736,0.0004606697,0.000087238615,0.00016338291,0.00008687065,0.00013266975,0.00012257393,0.00041566486],"category_scores_gemma":[0.00021885688,0.00034926907,0.000044157543,0.00013961407,0.0001232732,0.00043063363,0.00007238226,0.00006880936,0.0005029248],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000033341006,0.000008874819,0.0000040625623,0.000060722916,0.000031716205,0.000017636161,0.00025598783,0.0032939124,0.9852953,0.00027927873,0.00005888761,0.010660259],"study_design_scores_gemma":[0.0003677752,0.00004584714,0.00013102288,0.00008160441,0.000016188571,0.000043227927,0.000055211345,0.00045534447,0.9932815,0.0018457158,0.003247405,0.00042915545],"about_ca_topic_score_codex":0.000008394993,"about_ca_topic_score_gemma":0.0000063228213,"teacher_disagreement_score":0.022911098,"about_ca_system_score_codex":0.00008245696,"about_ca_system_score_gemma":0.000013271626,"threshold_uncertainty_score":0.99989593},"labels":[],"label_agreement":null},{"id":"W2791280146","doi":"10.1002/adma.201706597","title":"Liquid‐Crystalline Dynamic Networks Doped with Gold Nanorods Showing Enhanced Photocontrol of Actuation","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":358,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Fonds de recherche du Québec – Nature et technologies; China Scholarship Council; Fonds Québécois de la Recherche sur la Nature et les Technologies; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Nanorod; Materials science; Doping; Nanotechnology; Liquid crystalline; Liquid crystal; Optoelectronics","score_opus":0.004404763395631679,"score_gpt":0.21666764008316053,"score_spread":0.21226287668752886,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2791280146","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.67373055,0.00007149155,0.32397085,0.0000057876123,0.0008986917,0.00073355844,0.000043119657,0.00026375527,0.00028220867],"genre_scores_gemma":[0.98808753,0.00020746655,0.010916637,0.00004033067,0.00026296772,0.00023969468,0.000057037563,0.00010652612,0.000081827486],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99848664,0.000024270399,0.00055306737,0.00029390675,0.00020225158,0.0004398868],"domain_scores_gemma":[0.9990853,0.0000429111,0.00019406938,0.0003889675,0.00021120565,0.00007753786],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002463128,0.0003168352,0.00056168524,0.000069460584,0.00005246428,0.00003345907,0.00017840644,0.00012817512,0.00023883453],"category_scores_gemma":[0.00004259271,0.00027582626,0.00004028151,0.0001527095,0.00006008242,0.0003950589,0.00004077902,0.00006125837,0.000011856324],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006985573,0.000017050885,9.265129e-8,0.00010101833,0.00004029712,0.0000020432087,0.0000721999,0.04138493,0.9552371,0.00015230116,0.0000070657075,0.0022873355],"study_design_scores_gemma":[0.001350933,0.0005482461,0.000007451354,0.00019462252,0.00003783646,0.000003716302,0.000037065092,0.003822014,0.9926854,0.00026235153,0.00072261324,0.00032774347],"about_ca_topic_score_codex":0.000005269458,"about_ca_topic_score_gemma":0.000042175467,"teacher_disagreement_score":0.31435698,"about_ca_system_score_codex":0.00009615668,"about_ca_system_score_gemma":0.000022866141,"threshold_uncertainty_score":0.99996936},"labels":[],"label_agreement":null},{"id":"W2791370930","doi":"10.1002/adma.201706937","title":"Visually Imperceptible Liquid‐Metal Circuits for Transparent, Stretchable Electronics with Direct Laser Writing","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":237,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"China Scholarship Council; National Aeronautics and Space Administration","keywords":"Materials science; Stretchable electronics; Electronic circuit; Liquid metal; Electronics; Laser; Flexible electronics; Nanotechnology; Optoelectronics; Composite material; Optics; Electrical engineering","score_opus":0.015548432461071477,"score_gpt":0.25546571593148476,"score_spread":0.23991728347041327,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2791370930","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9830156,0.000121412115,0.012177787,0.000010942405,0.00077251333,0.00041745155,0.0002106895,0.0008789146,0.0023946946],"genre_scores_gemma":[0.99058175,0.00016792103,0.007886408,0.00005222008,0.00060898013,0.0001931196,0.00010436845,0.00017988286,0.00022533366],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980628,0.000035554032,0.00046919432,0.0004096909,0.00019445962,0.000828335],"domain_scores_gemma":[0.99921185,0.000089239344,0.00009107886,0.0003091174,0.00018260622,0.00011609095],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027144988,0.00037842145,0.00054968504,0.00007820672,0.00018362098,0.000099585945,0.00018630565,0.00011084233,0.00026665608],"category_scores_gemma":[0.00006294257,0.00035131854,0.000055311095,0.00015323861,0.00008064207,0.00047995354,0.000017886372,0.00006247292,0.000036247773],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022853496,0.000018950559,0.0000033908068,0.00017101993,0.000057723675,0.000003607013,0.0001137852,0.01802272,0.9797881,0.00021766231,0.000054066724,0.001320418],"study_design_scores_gemma":[0.0009436307,0.00089603715,0.000025354848,0.00013515832,0.000048019818,0.000014331563,0.000057407186,0.00016006007,0.9902332,0.0002487788,0.006742893,0.0004951311],"about_ca_topic_score_codex":0.00000833918,"about_ca_topic_score_gemma":0.000059549802,"teacher_disagreement_score":0.017862659,"about_ca_system_score_codex":0.00010601272,"about_ca_system_score_gemma":0.000034610475,"threshold_uncertainty_score":0.9998939},"labels":[],"label_agreement":null},{"id":"W2791944270","doi":"10.1002/adma.201704439","title":"Synthesis of Engineered Zeolitic Materials: From Classical Zeolites to Hierarchical Core–Shell Materials","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Zeolite Catalysis and Synthesis","field":"Chemistry","cited_by":167,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"Natural Sciences and Engineering Research Council of Canada; Universität Wien","keywords":"Materials science; Core (optical fiber); Shell (structure); Zeolite; Nanotechnology; Chemical engineering; Composite material; Catalysis; Organic chemistry; Engineering","score_opus":0.03582221887838249,"score_gpt":0.30316810734017546,"score_spread":0.26734588846179297,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2791944270","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.16813116,0.7555591,0.000036993828,0.00005884862,0.0032782152,0.0016138796,0.069161154,0.00056729896,0.0015933517],"genre_scores_gemma":[0.015573487,0.9678242,0.005069232,0.00008636256,0.0035128908,0.0016202835,0.0044137263,0.00064720283,0.0012526222],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99149054,0.0004562694,0.0039676446,0.0018556295,0.0009151918,0.0013147236],"domain_scores_gemma":[0.99233836,0.0025809794,0.0015601548,0.0026103987,0.00033793066,0.0005722022],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.0010256922,0.0016790843,0.008293958,0.000411716,0.00012570985,0.0002966348,0.0017353492,0.0011135776,0.025518779],"category_scores_gemma":[0.0032708475,0.0013999817,0.0007902812,0.00034716495,0.0003888957,0.00021886069,0.000702188,0.00024116515,0.0014943777],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022520694,0.0001835468,2.929588e-7,0.02256875,0.0007777135,0.000040225525,0.00007373672,4.6708504e-7,0.90764266,0.00077927037,0.0007113742,0.066996776],"study_design_scores_gemma":[0.00016690108,0.000027713248,0.0000017706922,0.012102233,0.001291788,0.000014657306,0.000014248945,1.0317476e-7,0.5970982,0.00047268957,0.38795426,0.0008554552],"about_ca_topic_score_codex":0.00013595223,"about_ca_topic_score_gemma":0.000004151562,"teacher_disagreement_score":0.38724288,"about_ca_system_score_codex":0.00037148903,"about_ca_system_score_gemma":0.0002638497,"threshold_uncertainty_score":0.9995956},"labels":[],"label_agreement":null},{"id":"W2792081538","doi":"10.1002/adma.201706275","title":"Amide‐Catalyzed Phase‐Selective Crystallization Reduces Defect Density in Wide‐Bandgap Perovskites","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":115,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Formamidinium; Perovskite (structure); Band gap; Energy conversion efficiency; Chemical engineering; Crystallization; Optoelectronics","score_opus":0.008460747115046803,"score_gpt":0.2590037122530769,"score_spread":0.2505429651380301,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2792081538","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99446297,0.0000991376,0.0033156006,0.00002862999,0.00046239767,0.00040981942,0.000089721754,0.00036101727,0.00077067927],"genre_scores_gemma":[0.997674,0.00011161191,0.0015701684,0.0000349558,0.00022913885,0.0001562041,0.0001443259,0.000050908355,0.000028707434],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987845,0.000047059697,0.00039706248,0.00030404312,0.00013351698,0.00033386322],"domain_scores_gemma":[0.99941355,0.00006418693,0.00007702095,0.00025476006,0.00012957657,0.000060877755],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002333607,0.00022576048,0.00033716904,0.000109437795,0.000105921215,0.00009857783,0.00014957148,0.0000908211,0.00027743113],"category_scores_gemma":[0.00013645882,0.00022772604,0.000039095332,0.00026554396,0.00008207861,0.00035031716,0.000037647227,0.000047269114,0.00013067064],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006161685,0.000044242846,0.000034456334,0.000034968372,0.000016948019,0.0000016705981,0.00022183052,0.00038129196,0.9979699,0.00021277832,0.00023802204,0.0007822322],"study_design_scores_gemma":[0.00082438946,0.000055343666,0.0017698619,0.00005366812,0.000016151811,0.0000040465716,0.000033053137,0.00008640441,0.9939427,0.001763781,0.0011908283,0.00025978722],"about_ca_topic_score_codex":0.00003361034,"about_ca_topic_score_gemma":0.00010171899,"teacher_disagreement_score":0.004027257,"about_ca_system_score_codex":0.00012974966,"about_ca_system_score_gemma":0.000020481582,"threshold_uncertainty_score":0.9286398},"labels":[],"label_agreement":null},{"id":"W2792255898","doi":"10.1002/adma.201707635","title":"Chemical‐to‐Electricity Carbon: Water Device","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Canada Research Chairs; University of Toronto","funders":"National Natural Science Foundation of China; Science and Technology Commission of Shanghai Municipality; Ministry of Science and Technology","keywords":"Materials science; Carbon nanotube; Electricity; Carbon fibers; Aqueous solution; Oxygen; Chemical energy; Power density; Electric potential energy; Polarization (electrochemistry); Ionic bonding; Chemical engineering; Nanotechnology; Chemical physics; Power (physics); Electrical engineering; Composite material; Ion; Chemistry; Thermodynamics; Organic chemistry","score_opus":0.013223306639193267,"score_gpt":0.2546767363448377,"score_spread":0.2414534297056444,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2792255898","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99427354,0.000019078065,0.0002012402,0.0002989161,0.0027155387,0.00038744727,0.000038187092,0.0002829259,0.0017831083],"genre_scores_gemma":[0.9914519,0.000005886512,0.0061968933,0.0007500477,0.001282089,0.00012944538,0.000020055166,0.00004552738,0.00011813688],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978387,0.00010077712,0.00047708253,0.00057225843,0.00035460098,0.00065662846],"domain_scores_gemma":[0.99883646,0.000035461566,0.000079483485,0.0005429435,0.00034199434,0.00016366236],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006438958,0.00025816655,0.00038465124,0.00007799306,0.00014244227,0.0001631892,0.00039452888,0.0001127644,0.0030116236],"category_scores_gemma":[0.00018017377,0.00019306925,0.000033049884,0.00016722427,0.00011679359,0.00027818765,0.00015885635,0.000038225113,0.003116814],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014533388,0.00003035211,0.000006269799,0.000020465419,0.0000036711974,0.0000019780305,0.00032209101,0.0000013844417,0.9985942,0.0001820894,0.00024522693,0.00044689327],"study_design_scores_gemma":[0.0002794368,0.00010631314,0.00008159957,0.000022301248,0.000013385098,0.0000102645445,0.00002375261,0.0000019914892,0.9884469,0.000780559,0.009920201,0.0003133265],"about_ca_topic_score_codex":0.00013404537,"about_ca_topic_score_gemma":0.0000064015157,"teacher_disagreement_score":0.010147376,"about_ca_system_score_codex":0.00012779301,"about_ca_system_score_gemma":0.000028715987,"threshold_uncertainty_score":0.9978998},"labels":[],"label_agreement":null},{"id":"W2792846295","doi":"10.1002/adma.201706103","title":"When 2D Materials Meet Molecules: Opportunities and Challenges of Hybrid Organic/Inorganic van der Waals Heterostructures","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":268,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"H2020 Marie Skłodowska-Curie Actions; National Institute of Education; H2020 Future and Emerging Technologies; Agence Nationale de la Recherche; European Commission; Centre International de Recherche aux Frontières de la Chimie","keywords":"van der Waals force; Nanotechnology; Materials science; Heterojunction; Molecule; Hybrid material; Organic molecules; Hybrid system; Computer science; Optoelectronics; Chemistry; Organic chemistry","score_opus":0.0798254493209862,"score_gpt":0.32377145909455973,"score_spread":0.24394600977357353,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2792846295","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.018717745,0.974857,0.000058291622,0.00009658947,0.00060929597,0.001613201,0.003720631,0.00015756501,0.00016972839],"genre_scores_gemma":[0.005766821,0.990969,0.0018890094,0.00004156739,0.00030606502,0.00047150353,0.0002712799,0.00018472262,0.00010001365],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9951556,0.0006939483,0.0015996941,0.0010798208,0.00061886176,0.0008520823],"domain_scores_gemma":[0.99659723,0.00024223061,0.0012135458,0.0012696196,0.0003747371,0.00030261953],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011108886,0.0008626014,0.0029106615,0.00029151037,0.00022358005,0.00029029386,0.0010114186,0.00025866143,0.004365238],"category_scores_gemma":[0.00029358172,0.0006824525,0.00017589978,0.00012118164,0.0006586157,0.0003655125,0.0006571678,0.00009571618,0.00017316664],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030074285,0.000049690818,3.26879e-8,0.019972838,0.00013416786,0.000019074088,0.00013603787,1.2810213e-7,0.9533237,0.003894303,0.00055856956,0.021881342],"study_design_scores_gemma":[0.00022692075,0.0001528094,0.0000010969898,0.0033019825,0.00029703986,0.00013193462,0.00007901144,2.1429983e-8,0.68674266,0.009332113,0.29915285,0.0005815297],"about_ca_topic_score_codex":0.000024053876,"about_ca_topic_score_gemma":0.000013364019,"teacher_disagreement_score":0.29859427,"about_ca_system_score_codex":0.00008004714,"about_ca_system_score_gemma":0.00033041564,"threshold_uncertainty_score":0.9995627},"labels":[],"label_agreement":null},{"id":"W2793594583","doi":"10.1002/adma.201705542","title":"Interstitial Mo‐Assisted Photovoltaic Effect in Multilayer MoSe<sub>2</sub> Phototransistors","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo; Dalhousie University","funders":"Natural Sciences and Engineering Research Council of Canada; National Research Foundation of Korea; Korea Institute of Science and Technology; Ministry of Science, ICT and Future Planning","keywords":"Materials science; Responsivity; Photoexcitation; Band gap; Optoelectronics; Transistor; Diselenide; Nanotechnology; Chemical physics; Photodetector; Excitation","score_opus":0.008835129960323457,"score_gpt":0.2572447512286633,"score_spread":0.24840962126833985,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2793594583","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952592,0.00003459878,0.00045007255,0.000040513234,0.0022910633,0.0010612963,0.000245241,0.00029558325,0.00032241698],"genre_scores_gemma":[0.99635184,0.000030822204,0.0021249996,0.00025567875,0.00041752576,0.0006708896,0.0000387528,0.00007676827,0.00003271357],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99710757,0.00023899005,0.00080055813,0.00079603563,0.00034823106,0.0007086243],"domain_scores_gemma":[0.99875134,0.0001245558,0.0002676944,0.0005407643,0.00016357038,0.00015205656],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000860722,0.0004315771,0.0006921723,0.00016216231,0.00021588887,0.0001804099,0.00042908633,0.00018375446,0.0010211066],"category_scores_gemma":[0.00016582878,0.00038995178,0.00008589148,0.00027842974,0.00032777645,0.00043361474,0.00013465092,0.000087251545,0.0013519976],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005558282,0.00010199993,0.000018050901,0.0000855866,0.00000733719,0.000011463471,0.00018506106,0.000017181961,0.99736273,0.000096501055,0.00023359882,0.0013246621],"study_design_scores_gemma":[0.0014849564,0.00029945877,0.0011712046,0.00014346812,0.000026563552,0.00001232289,0.000025775502,0.000020141768,0.9942635,0.00050521165,0.0016097485,0.0004376229],"about_ca_topic_score_codex":0.00024054135,"about_ca_topic_score_gemma":0.00023974903,"teacher_disagreement_score":0.003099203,"about_ca_system_score_codex":0.00021255974,"about_ca_system_score_gemma":0.000057541383,"threshold_uncertainty_score":0.9998921},"labels":[],"label_agreement":null},{"id":"W2793823978","doi":"10.1002/adma.201705925","title":"Self‐Powered Wearable Electronics Based on Moisture Enabled Electricity Generation","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":453,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"China Scholarship Council; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Electronics; Materials science; Moisture; Electricity; Wearable technology; Humidity; Wearable computer; Voltage; Electrical engineering; Generator (circuit theory); Nanotechnology; Computer science; Process engineering; Power (physics); Embedded system; Engineering; Composite material","score_opus":0.008156527919434352,"score_gpt":0.21716595967511354,"score_spread":0.20900943175567918,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2793823978","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96780246,0.00025333598,0.014495255,0.00003920524,0.0027269046,0.00045367755,0.000045064597,0.0020615696,0.012122527],"genre_scores_gemma":[0.9811041,0.00025303886,0.01693724,0.00023843504,0.0008956843,0.000070993345,0.000066313594,0.00010676626,0.00032742866],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983291,0.00007965084,0.00038451183,0.00036413307,0.00021692408,0.0006256605],"domain_scores_gemma":[0.9991913,0.000049137907,0.0000865132,0.00042697202,0.00015312003,0.00009297674],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027147023,0.00033435517,0.00037828097,0.00010348523,0.0001864457,0.000109197725,0.00017043955,0.00015631068,0.0003042275],"category_scores_gemma":[0.00013485446,0.00032688322,0.00004133513,0.00022634567,0.000031365118,0.00025658077,0.00001542705,0.000101011225,0.00017219818],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008055573,0.00002957868,0.0000012529894,0.000048265912,0.000017790158,0.00000297379,0.000024779316,0.06630089,0.93190134,0.0005912986,0.00037292123,0.0006283558],"study_design_scores_gemma":[0.00065516087,0.00024996762,0.000028837492,0.00003506136,0.000017091206,0.0000038890985,0.000002514574,0.010166533,0.96169215,0.0008153024,0.02596576,0.0003677001],"about_ca_topic_score_codex":0.0000063141847,"about_ca_topic_score_gemma":0.000016155109,"teacher_disagreement_score":0.056134358,"about_ca_system_score_codex":0.0002549132,"about_ca_system_score_gemma":0.000041099465,"threshold_uncertainty_score":0.99991834},"labels":[],"label_agreement":null},{"id":"W2800544811","doi":"10.1002/adma.201870128","title":"Wearable Electronics: Self‐Powered Wearable Electronics Based on Moisture Enabled Electricity Generation (Adv. Mater. 18/2018)","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Wearable technology; Wearable computer; Electronics; Materials science; Flexibility (engineering); Electricity; Light-emitting diode; Electrical engineering; Optoelectronics; Computer science; Embedded system; Engineering","score_opus":0.010139125214462304,"score_gpt":0.22558690543296994,"score_spread":0.21544778021850763,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2800544811","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96930426,0.0012852098,0.010309192,0.00006675805,0.003439145,0.0008933723,0.00009382561,0.0028949014,0.011713351],"genre_scores_gemma":[0.9827306,0.0015951418,0.012239832,0.00037603444,0.0012347494,0.00018813304,0.00014386627,0.00027082374,0.0012208098],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962732,0.0001858781,0.00079488603,0.00076875073,0.00043409716,0.0015431691],"domain_scores_gemma":[0.99839574,0.00008498005,0.00021793337,0.0008552149,0.00025308944,0.00019302068],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00059088215,0.0007130342,0.0007932308,0.00021503778,0.00040292853,0.0002892574,0.00038997573,0.0003439587,0.0009402519],"category_scores_gemma":[0.00017325248,0.0007144917,0.000095897296,0.0004339372,0.00006712145,0.00057887833,0.00004092786,0.00026457186,0.0004050308],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023667103,0.0000717906,0.0000030961112,0.00010526945,0.00005441395,0.0000066909006,0.00003919455,0.07593251,0.9212254,0.0005345848,0.001155318,0.0006350204],"study_design_scores_gemma":[0.0012566441,0.000604774,0.000035706646,0.00011283391,0.000047842033,0.0000138196,0.0000065011254,0.008797467,0.9499058,0.0016405414,0.03680523,0.0007728011],"about_ca_topic_score_codex":0.000025177753,"about_ca_topic_score_gemma":0.000044142766,"teacher_disagreement_score":0.06713504,"about_ca_system_score_codex":0.00076364074,"about_ca_system_score_gemma":0.00013348712,"threshold_uncertainty_score":0.999973},"labels":[],"label_agreement":null},{"id":"W2801546204","doi":"10.1002/adma.201800242","title":"Microfluidics‐Enabled Multimaterial Maskless Stereolithographic Bioprinting","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":422,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Dental and Craniofacial Research; Office of Naval Research; National Institute of Arthritis and Musculoskeletal and Skin Diseases; Fonds de Recherche du Québec - Santé; Canadian Institutes of Health Research; National Cancer Institute; National Institutes of Health; Xunta de Galicia; National Institute of Biomedical Imaging and Bioengineering; Sharif University of Technology; Brigham and Women's Hospital","keywords":"Stereolithography; Biofabrication; Microfluidics; Materials science; Nanotechnology; Tissue engineering; 3D bioprinting; Self-healing hydrogels; Biomedical engineering; Fabrication; Regenerative medicine; Ethylene glycol; Engineering; Chemistry; Cell","score_opus":0.010557653291673309,"score_gpt":0.26392019604423617,"score_spread":0.25336254275256287,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2801546204","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919688,0.00009467656,0.0021076133,0.000038115075,0.0030018396,0.00031578203,0.00004167246,0.0007774136,0.001654077],"genre_scores_gemma":[0.9842521,0.00013364087,0.014565835,0.000045803386,0.0007297485,0.00006086229,0.000014867454,0.000090432324,0.00010673622],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99791116,0.000066921166,0.00049495004,0.00035520748,0.00038189953,0.0007898687],"domain_scores_gemma":[0.9990348,0.0000752676,0.000058129288,0.00047765588,0.00018328681,0.00017081805],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007670971,0.00026322613,0.00034785905,0.00020477653,0.00013426381,0.0001629793,0.00042686384,0.00015507998,0.0012830971],"category_scores_gemma":[0.00024821906,0.00025264878,0.000049078837,0.00031505714,0.0002877791,0.00020097829,0.00022333901,0.000119097436,0.0006655486],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004675148,0.000014031004,0.00009506613,0.00017672473,0.000029962937,0.000008919957,0.000073918876,0.000010559927,0.99076873,0.00015955704,0.00024115301,0.008374643],"study_design_scores_gemma":[0.0006295446,0.000048738093,0.0014928732,0.00011023299,0.000007700867,0.000009425811,0.00002465174,0.00015701276,0.9799242,0.0003952846,0.0169127,0.0002876034],"about_ca_topic_score_codex":0.000025647025,"about_ca_topic_score_gemma":0.0000026796756,"teacher_disagreement_score":0.016671548,"about_ca_system_score_codex":0.00007366827,"about_ca_system_score_gemma":0.000022627099,"threshold_uncertainty_score":0.99999255},"labels":[],"label_agreement":null},{"id":"W2804043748","doi":"10.1002/adma.201706764","title":"Artificial Rod and Cone Photoreceptors with Human‐Like Spectral Sensitivities","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Biotechnology Research Institute","funders":"National Research Council of Science and Technology; National Research Foundation of Korea; European Research Council; Korea Basic Science Institute; Korea Institute of Science and Technology","keywords":"Materials science; Cone (formal languages); Spectral sensitivity; Optics; Nanotechnology; Biophysics; Optoelectronics; Biology; Wavelength; Physics","score_opus":0.0334227648545819,"score_gpt":0.30699115594950804,"score_spread":0.27356839109492614,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2804043748","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99668235,0.000011255077,0.000046585912,0.00003516889,0.0005947772,0.00033253772,0.0000950981,0.00009063252,0.0021115805],"genre_scores_gemma":[0.99832,0.000036927162,0.0005596082,0.0001892425,0.0003831134,0.000029625631,0.0000061170017,0.00003631702,0.00043907293],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983403,0.00012172155,0.00021387896,0.00047695264,0.0003802808,0.00046683833],"domain_scores_gemma":[0.9993862,0.00009233886,0.00007342274,0.00023704466,0.000086640895,0.00012436531],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021056144,0.00019393838,0.0002545819,0.00008438994,0.00031174268,0.00015448644,0.00013415208,0.000055288823,0.0008597706],"category_scores_gemma":[0.00010777635,0.00016068833,0.000018719298,0.00013450262,0.00079716544,0.00019583333,0.00009084355,0.000072482515,0.00009978875],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029582117,0.000031064486,0.000039017217,0.0000138972655,0.0000042478596,0.000015476488,0.00028517723,0.000001299337,0.9979493,0.0008446686,0.00008357393,0.00043646045],"study_design_scores_gemma":[0.00031226527,0.00055586797,0.00032532623,0.000020075673,0.0000058727223,0.000029630206,0.00008932354,0.0000044357193,0.9951852,0.00097209157,0.0022767475,0.00022316458],"about_ca_topic_score_codex":0.00003341042,"about_ca_topic_score_gemma":0.000057725443,"teacher_disagreement_score":0.002764097,"about_ca_system_score_codex":0.000040893898,"about_ca_system_score_gemma":0.000037968115,"threshold_uncertainty_score":0.9413885},"labels":[],"label_agreement":null},{"id":"W2805495148","doi":"10.1002/adma.201801639","title":"Ionic Liquid Gating Control of Spin Reorientation Transition and Switching of Perpendicular Magnetic Anisotropy","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Magnetic and transport properties of perovskites and related materials","field":"Materials Science","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"National Key Research and Development Program of China; Natural Sciences and Engineering Research Council of Canada; Office of Science; National Natural Science Foundation of China; Fundamental Research Funds for the Central Universities; Higher Education Discipline Innovation Project; International Joint Laboratory for MicroNano Manufacturing and Measurement Technologies; U.S. Department of Energy","keywords":"Gating; Materials science; Condensed matter physics; Spintronics; Magnetization; Magnetic anisotropy; Anisotropy energy; Ferromagnetic resonance; Ferromagnetism; Voltage; Magnetic field; Physics","score_opus":0.0039219317162316756,"score_gpt":0.21916359016026823,"score_spread":0.21524165844403656,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2805495148","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9920466,0.0006640043,0.006081037,0.00006530047,0.0005336503,0.0003720442,0.00006853485,0.000038503353,0.00013031745],"genre_scores_gemma":[0.9935271,0.00024504986,0.0060092104,0.000050704908,0.00009828325,0.000019366751,0.00001368851,0.000020345504,0.0000162402],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983983,0.000095049865,0.000735945,0.00028750193,0.000241101,0.00024210445],"domain_scores_gemma":[0.9991543,0.000029994975,0.00035105192,0.00019675832,0.00021054134,0.00005733085],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005317603,0.00017373293,0.0004499598,0.000061424085,0.00011972916,0.000031776843,0.00011220552,0.00009640172,0.0021752429],"category_scores_gemma":[0.000042688986,0.0001405123,0.000042680073,0.00006611964,0.00019329593,0.00025092746,0.000020999909,0.000033398996,0.000015754458],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008397269,0.00003565207,0.0000096022495,0.00028840642,0.00000874544,0.0000026691712,0.0008096259,0.000056757664,0.9957935,0.0012631022,0.0000012586809,0.00089091243],"study_design_scores_gemma":[0.0014124102,0.0018386202,0.00038834134,0.00025235122,0.000084079096,0.000011972235,0.00024354125,0.00004160502,0.9948874,0.0006033241,0.00007827283,0.00015808085],"about_ca_topic_score_codex":0.00014483652,"about_ca_topic_score_gemma":0.000004541348,"teacher_disagreement_score":0.0021594884,"about_ca_system_score_codex":0.000012695247,"about_ca_system_score_gemma":0.00003042372,"threshold_uncertainty_score":0.9987369},"labels":[],"label_agreement":null},{"id":"W2805660669","doi":"10.1002/adma.201801387","title":"High‐Performance, Solution‐Processed, and Insulating‐Layer‐Free Light‐Emitting Diodes Based on Colloidal Quantum Dots","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":234,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Novelis (Canada)","funders":"National Natural Science Foundation of China","keywords":"Materials science; Quantum dot; Optoelectronics; Light-emitting diode; Layer (electronics); Diode; Colloid; Nanotechnology; Chemical engineering","score_opus":0.01645910193819756,"score_gpt":0.23704927865443126,"score_spread":0.2205901767162337,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2805660669","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964352,0.00014300291,0.00017373193,0.0004072475,0.0014068797,0.00024444534,0.00009318799,0.00022625647,0.0008700262],"genre_scores_gemma":[0.9923715,0.000054205084,0.006366234,0.0003709267,0.00052297884,0.000083160776,0.000008945791,0.00005552781,0.00016654923],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975548,0.00012877473,0.0006166777,0.00061481557,0.0004788459,0.00060607813],"domain_scores_gemma":[0.99856126,0.0001363138,0.00034191718,0.0005947327,0.0002483107,0.000117479045],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0010427621,0.00036082583,0.0005253454,0.00014954348,0.0006866492,0.00035635816,0.0004045095,0.00013145889,0.0008365862],"category_scores_gemma":[0.0005386102,0.000279051,0.000035054632,0.00020066,0.00026984216,0.0007679047,0.00018225334,0.00007248987,0.00024515265],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005470783,0.000052070154,0.00009249936,0.0001634832,0.0000055164082,0.0000022767176,0.00013799295,0.00011609193,0.99555707,0.0007037787,0.00020671796,0.0024154335],"study_design_scores_gemma":[0.000895904,0.0006057837,0.0014926576,0.00033010132,0.000019280607,0.0000059757776,0.00004557972,0.0009447035,0.9919495,0.00084971904,0.0024491,0.00041170281],"about_ca_topic_score_codex":0.00007531267,"about_ca_topic_score_gemma":0.000010221679,"teacher_disagreement_score":0.006192502,"about_ca_system_score_codex":0.00006516012,"about_ca_system_score_gemma":0.000070154914,"threshold_uncertainty_score":0.99996614},"labels":[],"label_agreement":null},{"id":"W2806218724","doi":"10.1002/adma.201801720","title":"Activated Electron‐Transport Layers for Infrared Quantum Dot Optoelectronics","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Optoelectronics; Photovoltaics; Passivation; Quantum dot; Doping; Band gap; Electrode; Solar cell; Tandem; Energy conversion efficiency; Ultraviolet; Quantum efficiency; Nanotechnology; Photovoltaic system; Layer (electronics)","score_opus":0.01606818932572014,"score_gpt":0.2682738809257782,"score_spread":0.25220569160005807,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2806218724","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9954787,0.0002230544,0.0008402657,0.00017547901,0.0012818266,0.00068966474,0.00019354449,0.00031046063,0.00080699316],"genre_scores_gemma":[0.9940336,0.00012813008,0.0039816163,0.0002621125,0.0003904097,0.0002655285,0.000042110667,0.00007833614,0.0008181542],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99757254,0.00009752528,0.00055772776,0.0005589987,0.00030433628,0.0009088972],"domain_scores_gemma":[0.9987306,0.00011715584,0.00024917573,0.0004807045,0.00031693326,0.00010544045],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007965177,0.00032962236,0.00052354066,0.000076679935,0.0003413572,0.000112057765,0.00042310366,0.00014171655,0.0018235218],"category_scores_gemma":[0.00020829825,0.0002703957,0.00008353697,0.00013786224,0.00020476553,0.00054323935,0.00004013122,0.000064286316,0.00028676845],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001183828,0.00004739601,0.0000059439576,0.00006689391,0.000019015666,0.0000012298291,0.00016373587,0.000014192202,0.9925868,0.0049142563,0.00062244304,0.0003742535],"study_design_scores_gemma":[0.00064819,0.00073271396,0.00007864789,0.000050254497,0.000025747973,0.0000054502284,0.000043150703,0.00001184633,0.9209674,0.005923802,0.07113568,0.00037714266],"about_ca_topic_score_codex":0.000041281284,"about_ca_topic_score_gemma":0.000022371465,"teacher_disagreement_score":0.071619436,"about_ca_system_score_codex":0.00012252617,"about_ca_system_score_gemma":0.00017918306,"threshold_uncertainty_score":0.99997485},"labels":[],"label_agreement":null},{"id":"W2808025896","doi":"10.1002/adma.201800561","title":"30 Years of Lithium‐Ion Batteries","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":5931,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Argonne National Laboratory; Office of Energy Efficiency; Natural Sciences and Engineering Research Council of Canada; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Office of Science; Vehicle Technologies Program; University of Chicago","keywords":"Materials science; Lithium (medication); Ion; Nanoarchitectures for lithium-ion batteries; Nanotechnology; Engineering physics; Anode; Electrode; Organic chemistry; Physical chemistry","score_opus":0.02703164734068694,"score_gpt":0.3037849191040038,"score_spread":0.2767532717633169,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2808025896","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0015501549,0.9877146,0.0002349494,0.0000011671314,0.007599188,0.00090036716,0.0009817035,0.00039815833,0.00061973697],"genre_scores_gemma":[0.000099865894,0.994904,0.003425701,0.00001760808,0.00064924284,0.00026872524,0.00021393731,0.00025674808,0.00016418987],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9973198,0.00012313268,0.0013935165,0.00041406445,0.00029760096,0.00045184518],"domain_scores_gemma":[0.99839145,0.00012161995,0.00048526915,0.000861406,0.00007962562,0.000060634124],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0003541243,0.00059277134,0.0024001498,0.00018364728,0.0000316431,0.000057509664,0.0005120008,0.00031649918,0.0023238552],"category_scores_gemma":[0.00010424751,0.0005920687,0.00012607631,0.00015022767,0.00015039055,0.0002834595,0.00018765507,0.000099755176,0.00094950956],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026359723,0.000047725953,1.4438612e-7,0.09727293,0.00044136934,0.00003141029,0.00016203472,0.00007305502,0.074339874,0.00024723163,0.0054753455,0.82188255],"study_design_scores_gemma":[0.00013890173,0.00005227726,6.803833e-7,0.00866279,0.00017859203,0.000012610592,0.000004497755,6.8357366e-8,0.054114707,0.00027669416,0.93605083,0.00050732284],"about_ca_topic_score_codex":0.0000015769942,"about_ca_topic_score_gemma":2.301389e-7,"teacher_disagreement_score":0.9305755,"about_ca_system_score_codex":0.00015996354,"about_ca_system_score_gemma":0.000036086356,"threshold_uncertainty_score":0.99982834},"labels":[],"label_agreement":null},{"id":"W2809555868","doi":"10.1002/adma.201800676","title":"Carbon‐Quantum‐Dots‐Loaded Ruthenium Nanoparticles as an Efficient Electrocatalyst for Hydrogen Production in Alkaline Media","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":635,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan","funders":"Jilin University; National Natural Science Foundation of China","keywords":"Overpotential; Electrocatalyst; Tafel equation; Materials science; Ruthenium; Catalysis; Noble metal; Nanoparticle; Hydrogen production; Electrochemistry; Chemical engineering; Carbon fibers; Inorganic chemistry; Nanotechnology; Metal; Metallurgy; Chemistry; Composite material; Electrode; Composite number; Organic chemistry; Physical chemistry","score_opus":0.009820001004383792,"score_gpt":0.248910430947225,"score_spread":0.23909042994284121,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2809555868","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974786,0.00009547496,0.000023932256,0.00016419137,0.0011054374,0.00054356863,0.000007476148,0.0002690152,0.00031232677],"genre_scores_gemma":[0.99784994,0.00001864819,0.00050903996,0.00009354721,0.0007358003,0.00026254018,0.00029403827,0.00009729285,0.00013913753],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972646,0.00013312459,0.00061012735,0.0007727511,0.00043465605,0.0007846892],"domain_scores_gemma":[0.9985699,0.00006233042,0.00023677835,0.000656167,0.00033498864,0.00013982218],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00080184126,0.00033397356,0.00045881828,0.00024349723,0.00014627264,0.000036884092,0.0003213321,0.00015370313,0.000093935814],"category_scores_gemma":[0.0006479175,0.0003233657,0.00006137812,0.000445958,0.00013089788,0.00028284767,0.00006521256,0.000074676755,0.00012075264],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001102344,0.00015523164,0.000003859332,0.000028811834,0.00003040484,0.0000047394074,0.00046126064,0.0014937954,0.988966,0.006720648,0.000011237925,0.00102169],"study_design_scores_gemma":[0.0012877597,0.0005560765,0.00002385713,0.000040813942,0.000051231145,0.000021946122,0.0001119639,0.00045797898,0.9865694,0.008412525,0.0020841,0.00038233923],"about_ca_topic_score_codex":0.00091254606,"about_ca_topic_score_gemma":0.0011769977,"teacher_disagreement_score":0.0023965682,"about_ca_system_score_codex":0.00033256717,"about_ca_system_score_gemma":0.00011406543,"threshold_uncertainty_score":0.99992186},"labels":[],"label_agreement":null},{"id":"W2810409273","doi":"10.1002/adma.201870196","title":"Photoreceptors: Artificial Rod and Cone Photoreceptors with Human‐Like Spectral Sensitivities (Adv. Mater. 27/2018)","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ocular and Laser Science Research","field":"Medicine","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Biotechnology Research Institute","funders":"","keywords":"Materials science; Light-emitting diode; Artificial light; Cone (formal languages); Biomaterial; Graphene; Biophysics; Optoelectronics; Nanotechnology; Optics; Biology; Physics; Computer science","score_opus":0.0184079517843389,"score_gpt":0.29674932742100574,"score_spread":0.27834137563666683,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2810409273","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965209,0.00004376788,0.00007789492,0.00018474662,0.0009260374,0.0006219349,0.00006491281,0.00013070756,0.0014290977],"genre_scores_gemma":[0.99547714,0.00004498124,0.0018582904,0.0002215962,0.0007525328,0.0000309753,0.000048521444,0.000048828093,0.001517141],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977724,0.000092081784,0.00033492502,0.00054874754,0.00059160736,0.0006602563],"domain_scores_gemma":[0.9989854,0.000041017116,0.0001052828,0.00038203187,0.00021794443,0.00026832757],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00054326456,0.00028456814,0.00052990194,0.00014799064,0.0002621633,0.00015879022,0.00010735916,0.00010090846,0.0020994842],"category_scores_gemma":[0.000060675873,0.00021378003,0.000043532422,0.00020205531,0.00093850563,0.0003497934,0.00008231824,0.00011161131,0.00017747747],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007992773,0.00007525119,0.00043477502,0.00008789485,0.0000411548,0.00005787334,0.00049226795,4.2335782e-7,0.99670434,0.00019882676,0.00046466244,0.00064326974],"study_design_scores_gemma":[0.0010454801,0.0014292154,0.0019912375,0.00015277757,0.00004023717,0.00011865285,0.00058280345,0.0000049643354,0.9887853,0.00028987916,0.0052811825,0.0002782436],"about_ca_topic_score_codex":0.00015257014,"about_ca_topic_score_gemma":0.000085290485,"teacher_disagreement_score":0.007918997,"about_ca_system_score_codex":0.00009688126,"about_ca_system_score_gemma":0.000102387,"threshold_uncertainty_score":0.99881274},"labels":[],"label_agreement":null},{"id":"W2811242110","doi":"10.1002/adma.201706285","title":"π‐Phase Tin and Germanium Monochalcogenide Semiconductors: An Emerging Materials System","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Chalcogenide Semiconductor Thin Films","field":"Engineering","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Ministry of Science and Technology, Israel; Azrieli Foundation","keywords":"Materials science; Germanium; Tin; Orthorhombic crystal system; Phase (matter); Chemical stability; Semiconductor; Nanotechnology; Nanoscopic scale; Nanoparticle; Density functional theory; Chemical physics; Chemical engineering; Crystallography; Silicon; Optoelectronics; Crystal structure; Computational chemistry; Metallurgy; Chemistry","score_opus":0.04891869287477675,"score_gpt":0.3330150001640337,"score_spread":0.28409630728925694,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2811242110","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.12430356,0.8622321,0.000018562001,0.0000013031961,0.0077855135,0.0016259524,0.0020802757,0.0016506921,0.00030207293],"genre_scores_gemma":[0.0050603463,0.9892116,0.0009702557,0.000013466725,0.0022542595,0.000463155,0.0011464868,0.0007352563,0.00014512906],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9950418,0.00034331466,0.0020572585,0.0011754101,0.00037822875,0.001003987],"domain_scores_gemma":[0.99737924,0.000099308374,0.000644031,0.001367323,0.00014302245,0.0003670548],"candidate_categories":["metaepi_narrow"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0009155508,0.0014564429,0.0036462592,0.0004250816,0.00015736019,0.00034493755,0.0007026159,0.0007802276,0.00052089104],"category_scores_gemma":[0.000051828985,0.0013999612,0.00022785309,0.00025340752,0.00012468002,0.000821624,0.00027903958,0.0002658271,0.00050532573],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001949038,0.000037524373,1.842433e-8,0.04007197,0.00033785217,0.0000798389,0.00021510643,0.0000052947094,0.9275625,0.00026823638,0.0005241397,0.030878032],"study_design_scores_gemma":[0.00077553396,0.000119092845,3.6092693e-8,0.010426883,0.00075192866,0.00061538495,0.00011531237,0.000006528602,0.4886914,0.000025603566,0.49696574,0.0015065691],"about_ca_topic_score_codex":0.000025428113,"about_ca_topic_score_gemma":0.0000047219037,"teacher_disagreement_score":0.4964416,"about_ca_system_score_codex":0.00038319392,"about_ca_system_score_gemma":0.000083078645,"threshold_uncertainty_score":0.9998185},"labels":[],"label_agreement":null},{"id":"W2812349315","doi":"10.1002/adma.201801661","title":"Overcoming the Ambient Manufacturability‐Scalability‐Performance Bottleneck in Colloidal Quantum Dot Photovoltaics","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":114,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Institute of Standards and Technology; King Abdullah University of Science and Technology","keywords":"Materials science; Fabrication; Photovoltaics; Nanotechnology; Quantum dot; Doping; Photovoltaic system; Optoelectronics; Electrical engineering","score_opus":0.017593137412441767,"score_gpt":0.24906624347081904,"score_spread":0.2314731060583773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2812349315","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99627155,0.00011466769,0.000017129649,0.0002913807,0.0020692272,0.00069743465,0.000078310106,0.0001125614,0.0003477261],"genre_scores_gemma":[0.99824,0.00014201329,0.00070056715,0.00033711086,0.00023827872,0.000174142,0.0000044805156,0.00003823064,0.00012519413],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969792,0.00033974517,0.00083432294,0.000635455,0.0004947778,0.0007165291],"domain_scores_gemma":[0.9983354,0.00028791765,0.00024353506,0.00088438473,0.00016367556,0.00008505963],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0023855546,0.0003391411,0.00052774686,0.00007623631,0.00039019418,0.00023047405,0.00062644423,0.000117593,0.0020615642],"category_scores_gemma":[0.00045880396,0.00021626247,0.00006466584,0.00020238523,0.00062550046,0.0005973105,0.00024469986,0.000116218456,0.0005593618],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044806828,0.00007270412,0.00043875462,0.00009174372,0.0000040061973,0.000001932178,0.00054369157,0.000045158944,0.99710166,0.00030397438,0.00012330912,0.0008249966],"study_design_scores_gemma":[0.00042183104,0.00024310654,0.007076703,0.00011751658,0.00001001442,0.00000849123,0.00018820676,0.00009147893,0.9778017,0.0013366557,0.012383292,0.0003209947],"about_ca_topic_score_codex":0.00040541362,"about_ca_topic_score_gemma":0.00020319133,"teacher_disagreement_score":0.01929995,"about_ca_system_score_codex":0.00021243098,"about_ca_system_score_gemma":0.00008561601,"threshold_uncertainty_score":0.9988507},"labels":[],"label_agreement":null},{"id":"W2848718784","doi":"10.1002/adma.201801435","title":"An Elastic Autonomous Self‐Healing Capacitive Sensor Based on a Dynamic Dual Crosslinked Chemical System","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":393,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"China Scholarship Council; National Natural Science Foundation of China; National Science Foundation","keywords":"Materials science; Self-healing; Composite material; Soft robotics; Capacitive sensing; Composite number; Polymer; Substrate (aquarium); Nanotechnology; Self-healing material; Elasticity (physics); Computer science","score_opus":0.007106922996360352,"score_gpt":0.2359318610803602,"score_spread":0.22882493808399987,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2848718784","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9787528,0.0000085834,0.014512442,0.0000074601608,0.0024105592,0.00030913603,0.00024233983,0.0028346202,0.0009220507],"genre_scores_gemma":[0.9715622,0.0000032009566,0.027351737,0.00008044132,0.0006129875,0.00008640416,0.00010703831,0.00016622577,0.000029748724],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997756,0.000111753834,0.0006195606,0.0005399025,0.0002717933,0.00070100004],"domain_scores_gemma":[0.99878967,0.00015026923,0.0001293506,0.00054520415,0.00017150208,0.00021398514],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002812783,0.0004708889,0.0006074537,0.00012039726,0.00018863699,0.000111925445,0.00018373312,0.0002067081,0.00009038388],"category_scores_gemma":[0.00012391874,0.00046975192,0.000055834258,0.00014068792,0.00013270718,0.0002849257,0.00002302594,0.000116473675,0.00019939533],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015749404,0.00003353022,0.0000013042921,0.00021069891,0.000021329775,0.000029994675,0.00018173088,0.13035335,0.8685508,0.00024059956,0.0000051911993,0.00021403084],"study_design_scores_gemma":[0.000999777,0.00026055335,0.000093136085,0.00028464483,0.000035909154,0.00004515188,0.00013093324,0.06264632,0.9345867,0.00009273694,0.00023980503,0.00058430986],"about_ca_topic_score_codex":0.000015888365,"about_ca_topic_score_gemma":0.0000036515896,"teacher_disagreement_score":0.06770702,"about_ca_system_score_codex":0.0004742881,"about_ca_system_score_gemma":0.000038082366,"threshold_uncertainty_score":0.9997754},"labels":[],"label_agreement":null},{"id":"W2883026039","doi":"10.1002/adma.201801190","title":"Li<sub>2</sub>S‐ or S‐Based Lithium‐Ion Batteries","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Argonne National Laboratory; Waterloo Institute for Nanotechnology, University of Waterloo; Natural Sciences and Engineering Research Council of Canada; Division of Materials Research; Office of Science; University of Chicago; U.S. Department of Energy","keywords":"Anode; Battery (electricity); Commercialization; Cathode; Materials science; Lithium (medication); Lithium metal; Key (lock); Nanotechnology; Realization (probability); Potassium-ion battery; Lithium-ion battery; Engineering physics; Computer science; Electrical engineering; Business; Electrode; Engineering; Physics; Physical chemistry; Chemistry; Thermodynamics; Computer security","score_opus":0.03349855756748163,"score_gpt":0.30233271749098384,"score_spread":0.26883415992350224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2883026039","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0024251046,0.9710046,0.0023464656,0.000012999813,0.017332679,0.0025975264,0.0019613013,0.0019375331,0.0003817871],"genre_scores_gemma":[0.00014647383,0.9915203,0.0033755645,0.00016451653,0.0017522547,0.0014038408,0.0008059592,0.00063541316,0.00019570204],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99547255,0.00028796907,0.0019397482,0.0007877303,0.00049639476,0.0010155827],"domain_scores_gemma":[0.9973373,0.00029345072,0.0006303401,0.0014269575,0.00014256882,0.00016938399],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.00056573923,0.0014244386,0.0033664366,0.0003347064,0.00015662522,0.00029242208,0.000800986,0.00062370714,0.0016826158],"category_scores_gemma":[0.00024473944,0.0011694301,0.00021293467,0.00032846967,0.0001998295,0.0005930037,0.00024140484,0.00022941167,0.002425001],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021489711,0.00009564161,1.1500612e-7,0.10724182,0.00045388515,0.000118419346,0.00008957932,0.00031064494,0.3066072,0.000060380713,0.012739182,0.5720683],"study_design_scores_gemma":[0.00028745426,0.000098419296,2.032721e-7,0.010225583,0.00025585818,0.000028998653,0.0000045731085,7.859463e-7,0.30889222,0.000114071816,0.6791366,0.0009552576],"about_ca_topic_score_codex":0.000001034653,"about_ca_topic_score_gemma":0.0000027483943,"teacher_disagreement_score":0.6663974,"about_ca_system_score_codex":0.0004958809,"about_ca_system_score_gemma":0.00015737198,"threshold_uncertainty_score":0.9998506},"labels":[],"label_agreement":null},{"id":"W2884035048","doi":"10.1002/adma.201707424","title":"Strong Graphene 3D Assemblies with High Elastic Recovery and Hardness","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Natural Science Foundation of Zhejiang Province; Argonne National Laboratory; Vehicle Technologies Office; Chinese Academy of Sciences; Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; National Natural Science Foundation of China","keywords":"Graphene; Materials science; Nanopore; Nanotechnology; Oxide; Composite material; Elastic modulus; Thermal stability; Chemical engineering","score_opus":0.012956557371271566,"score_gpt":0.2701009756078309,"score_spread":0.25714441823655937,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2884035048","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992123,0.00006798932,0.006497097,0.00010612044,0.00035380432,0.0002919801,0.00010739408,0.000110914145,0.00034170697],"genre_scores_gemma":[0.98459125,0.000086948465,0.014734527,0.000045387707,0.00015909782,0.00016852356,0.000015224106,0.000024863139,0.00017419345],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986298,0.000064243875,0.00021371717,0.00039242467,0.00028222872,0.00041755463],"domain_scores_gemma":[0.99914527,0.000075352466,0.00010584812,0.00033852973,0.00020592035,0.00012907689],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030245882,0.00016743706,0.00024684638,0.000085290594,0.00026313897,0.00020843634,0.0001871436,0.000043609907,0.00061096787],"category_scores_gemma":[0.00008145632,0.0001274418,0.000014749547,0.00018427533,0.00035142744,0.0004463709,0.00009328578,0.000037312337,0.00014206638],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017637231,0.000025369913,0.000061230254,0.000030731928,0.000008838292,0.0000022145,0.000021456435,0.000014079524,0.9944409,0.004348718,0.00014914712,0.00072092994],"study_design_scores_gemma":[0.0004793994,0.0003767231,0.0051426594,0.000056436358,0.000015989019,0.000010863247,0.0000568821,0.0000017325825,0.9852051,0.007204203,0.0012570228,0.0001929605],"about_ca_topic_score_codex":0.00007670192,"about_ca_topic_score_gemma":0.000050561874,"teacher_disagreement_score":0.0092357835,"about_ca_system_score_codex":0.00002155878,"about_ca_system_score_gemma":0.000051965544,"threshold_uncertainty_score":0.66896695},"labels":[],"label_agreement":null},{"id":"W2885342463","doi":"10.1002/adma.201803628","title":"Ultralow Dispersion Multicomponent Thin‐Film Chalcogenide Glass for Broadband Gradient‐Index Optics","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Phase-change materials and chalcogenides","field":"Materials Science","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Lockheed Martin (Canada)","funders":"Defense Advanced Research Projects Agency","keywords":"Materials science; Refractive index; Chalcogenide; Amorphous solid; Laser; Dispersion (optics); Optoelectronics; Optics; Thin film; Infrared; Chalcogenide glass; Femtosecond; Grating; Photothermal therapy; Nanocrystal; Band gap; Nanotechnology","score_opus":0.023714590106446082,"score_gpt":0.2781485200904873,"score_spread":0.25443392998404124,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2885342463","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98575675,0.00015416843,0.0051568737,0.00020808051,0.0058665965,0.0011816204,0.0011387544,0.0003034294,0.00023371678],"genre_scores_gemma":[0.98263097,0.000148574,0.014467036,0.00031951012,0.0015324907,0.00029394386,0.00016409862,0.00010409488,0.00033928396],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9966892,0.00012674497,0.0007868641,0.00086690235,0.00049398385,0.0010363105],"domain_scores_gemma":[0.99811935,0.00014985439,0.00039768274,0.000679455,0.0003858822,0.0002677479],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0008239391,0.0005188319,0.00073098583,0.00011826197,0.00050485996,0.0003067766,0.00056117907,0.00019390097,0.0012399803],"category_scores_gemma":[0.00023288008,0.00044261458,0.00015484143,0.00011749512,0.00032566185,0.00054609217,0.00013863899,0.000054504035,0.0004402456],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008755031,0.00012489872,0.000018381772,0.00013509994,0.0000239139,0.000010099654,0.00036869067,0.00011660445,0.9967266,0.0008746564,0.0003389472,0.00038664436],"study_design_scores_gemma":[0.0021634963,0.00043733043,0.00013259488,0.000119417666,0.00006345268,0.00002483051,0.00016861578,0.0005119728,0.98651737,0.0029869361,0.0062910877,0.00058289076],"about_ca_topic_score_codex":0.00005667177,"about_ca_topic_score_gemma":0.00003625217,"teacher_disagreement_score":0.010209186,"about_ca_system_score_codex":0.00013996537,"about_ca_system_score_gemma":0.00004816386,"threshold_uncertainty_score":0.9998026},"labels":[],"label_agreement":null},{"id":"W2885627064","doi":"10.1002/adma.201802858","title":"2D Metal Oxyhalide‐Derived Catalysts for Efficient CO<sub>2</sub> Electroreduction","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":258,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto; University of New Brunswick","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; Ontario Research Foundation; Ontario Centres of Excellence; Canadian Light Source","keywords":"Overpotential; Catalysis; Materials science; Faraday efficiency; Bismuth; Electrochemistry; Tin; Inorganic chemistry; Selectivity; Transition metal; Electrocatalyst; Chemical engineering; Tafel equation; Electrode; Chemistry; Metallurgy; Organic chemistry; Physical chemistry","score_opus":0.011148365272625567,"score_gpt":0.2706737379569297,"score_spread":0.25952537268430415,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2885627064","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919756,0.00008723487,0.0034064695,0.000118308846,0.0022848058,0.0006721924,0.00008259264,0.00051609526,0.0008567037],"genre_scores_gemma":[0.9955901,0.00005495956,0.0018386652,0.00008123256,0.0012753104,0.0005046738,0.00037983447,0.000073336516,0.00020190797],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981471,0.000061760715,0.000493407,0.00053554843,0.00026012567,0.00050208485],"domain_scores_gemma":[0.9987937,0.000031162013,0.00025612282,0.0004823015,0.0003362954,0.00010042551],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00037150498,0.00028275856,0.00041548733,0.00013999137,0.00024210526,0.000067300236,0.00019070282,0.00013273778,0.00013426534],"category_scores_gemma":[0.00012307071,0.00027251424,0.00013783143,0.00020573649,0.00014324632,0.00019352205,0.000048458605,0.00005467775,0.00017690091],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027070878,0.00006375903,1.7581384e-7,0.000034005265,0.00005135016,0.0000013147048,0.00009225904,0.000058978585,0.9802212,0.0028961333,0.0016938304,0.014616269],"study_design_scores_gemma":[0.0005514234,0.00028235873,0.00002263024,0.0000220399,0.00006605878,0.000043116543,0.00006560432,0.000009171958,0.9696649,0.0017548383,0.02720298,0.00031492513],"about_ca_topic_score_codex":0.00008104745,"about_ca_topic_score_gemma":0.000032518485,"teacher_disagreement_score":0.02550915,"about_ca_system_score_codex":0.00018379893,"about_ca_system_score_gemma":0.000054170952,"threshold_uncertainty_score":0.9999727},"labels":[],"label_agreement":null},{"id":"W2886520910","doi":"10.1002/adma.201802902","title":"Ionic Modulation of the Interfacial Magnetism in a Bilayer System Comprising a Heavy Metal and a Magnetic Insulator for Voltage‐Tunable Spintronic Devices","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Shaanxi Province; National Natural Science Foundation of China","keywords":"Spintronics; Materials science; Yttrium iron garnet; Spin pumping; Magnetism; Bilayer; Ferromagnetism; Condensed matter physics; Heterojunction; Ionic bonding; Optoelectronics; Spin polarization; Spin Hall effect; Electron; Physics","score_opus":0.010812389211876886,"score_gpt":0.25119560725726536,"score_spread":0.24038321804538848,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2886520910","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950885,0.0005215221,0.000600131,0.000054123913,0.002253607,0.0012606641,0.00011917396,0.000051144973,0.000051102645],"genre_scores_gemma":[0.99718666,0.000021875681,0.0023819741,0.00003247506,0.00016067427,0.000115268216,0.000005654118,0.000033738455,0.00006168116],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979956,0.00014438925,0.0008074523,0.000424565,0.00022658221,0.00040142226],"domain_scores_gemma":[0.998946,0.000064624044,0.00040898944,0.0003514309,0.00017649832,0.000052448664],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00086998334,0.00023485433,0.00054777466,0.00010810882,0.00017400608,0.0001212422,0.00025527965,0.00014451968,0.00022197244],"category_scores_gemma":[0.000110275796,0.00016643688,0.000051902585,0.00015002216,0.00021760457,0.00027715357,0.00019856461,0.000049362778,0.00002162647],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030638633,0.00003490041,0.00004474793,0.00039968014,0.0000073434567,7.72234e-7,0.00024999047,0.00020908314,0.99665314,0.0014782734,0.0000045377574,0.0006111748],"study_design_scores_gemma":[0.0015157118,0.0003523033,0.0059771743,0.0004954509,0.000044194945,0.000015404514,0.00012556986,0.0012858612,0.9884296,0.0011380167,0.00040019714,0.00022050898],"about_ca_topic_score_codex":0.00023891282,"about_ca_topic_score_gemma":0.000096909374,"teacher_disagreement_score":0.008223504,"about_ca_system_score_codex":0.00010816411,"about_ca_system_score_gemma":0.00006266123,"threshold_uncertainty_score":0.67870986},"labels":[],"label_agreement":null},{"id":"W2888905441","doi":"10.1002/adma.201801996","title":"Perovskites for Light Emission","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":600,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Perovskite (structure); Halide; Light emission; Brightness; Optoelectronics; Compatibility (geochemistry); Nanoscopic scale; Nanotechnology; Band gap; Optics; Chemical engineering; Inorganic chemistry","score_opus":0.026238742589234507,"score_gpt":0.3175003542541459,"score_spread":0.2912616116649114,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2888905441","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000116500036,0.99418026,0.00039648853,0.000007993569,0.0017089366,0.0013104419,0.0010574227,0.00050983654,0.0007121445],"genre_scores_gemma":[0.000021436595,0.9931136,0.0025745884,0.000009572046,0.0011054612,0.0019047245,0.0005917601,0.00018655651,0.0004923502],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9985069,0.000024715515,0.0006582961,0.00035452825,0.00010437981,0.0003511801],"domain_scores_gemma":[0.99912757,0.00007720296,0.00015189678,0.0004873558,0.00007069456,0.000085292886],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00018814673,0.00045386757,0.0012976164,0.00008163702,0.00009772803,0.00011661123,0.00030800365,0.00028218882,0.00031527068],"category_scores_gemma":[0.000054399166,0.00036476905,0.00018941637,0.0000977951,0.000023523713,0.00010472941,0.00005397772,0.000050038507,0.00031858849],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000008702346,0.000029807019,7.8810825e-9,0.0525824,0.00013096041,0.0000014069852,0.000034030872,0.0000065982817,0.24737582,0.0005676567,0.032184653,0.66707796],"study_design_scores_gemma":[0.00009694014,0.000022591194,4.2842235e-8,0.0037918524,0.00016045912,0.0000061993824,0.0000015005938,0.000001123779,0.0511309,0.00032914907,0.94406384,0.00039539704],"about_ca_topic_score_codex":5.5202395e-7,"about_ca_topic_score_gemma":3.9947565e-7,"teacher_disagreement_score":0.9118792,"about_ca_system_score_codex":0.00009452007,"about_ca_system_score_gemma":0.000034377706,"threshold_uncertainty_score":0.99988043},"labels":[],"label_agreement":null},{"id":"W2889390033","doi":"10.1002/adma.201870260","title":"Solar Cells: Overcoming the Ambient Manufacturability‐Scalability‐Performance Bottleneck in Colloidal Quantum Dot Photovoltaics (Adv. Mater. 35/2018)","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Photovoltaics; Materials science; Design for manufacturability; Nanotechnology; Quantum dot; Fabrication; Photovoltaic system; Bottleneck; Energy conversion efficiency; Doping; Optoelectronics; Engineering physics; Electrical engineering; Computer science; Engineering","score_opus":0.017222415380803463,"score_gpt":0.24021372451734818,"score_spread":0.22299130913654472,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2889390033","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944893,0.0001142111,0.00003300334,0.00021276975,0.0035946125,0.00097634655,0.00015500485,0.0001668478,0.00025791727],"genre_scores_gemma":[0.997335,0.0003737869,0.001154171,0.0003828029,0.000300968,0.00022003865,0.000007915993,0.00006953271,0.00015575287],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99558157,0.0005028187,0.0011991025,0.00091218343,0.0006637915,0.0011405544],"domain_scores_gemma":[0.997744,0.00030795223,0.00038650233,0.0012470905,0.00017192369,0.00014251197],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.003137491,0.00052864733,0.0007715131,0.00012099023,0.00054945727,0.00040112474,0.00090908253,0.00019491004,0.0022960282],"category_scores_gemma":[0.00028944472,0.00034891037,0.00010072984,0.00025021785,0.0007927538,0.0008778837,0.00038276726,0.00017274452,0.00088047225],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00063129474,0.00011783834,0.00039507783,0.00020810247,0.000007665214,0.0000041116227,0.00074045936,0.00007443527,0.99687785,0.00010310455,0.00017524685,0.00066479907],"study_design_scores_gemma":[0.0005547551,0.00033821937,0.0034889702,0.00020640528,0.000019253677,0.000011301461,0.0002761192,0.00014045417,0.98008627,0.00088183227,0.013491021,0.0005054211],"about_ca_topic_score_codex":0.00065071473,"about_ca_topic_score_gemma":0.00023552791,"teacher_disagreement_score":0.016791617,"about_ca_system_score_codex":0.00032362214,"about_ca_system_score_gemma":0.000115232804,"threshold_uncertainty_score":0.9998975},"labels":[],"label_agreement":null},{"id":"W2889643732","doi":"10.1002/adma.201801790","title":"Plasmonic Chirality and Circular Dichroism in Bioassembled and Nonbiological Systems: Theoretical Background and Recent Progress","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Metamaterials and Metasurfaces Applications","field":"Materials Science","cited_by":149,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"National Key Research and Development Program of China; China Postdoctoral Science Foundation; National Natural Science Foundation of China; Fundamental Research Funds for the Central Universities; Volkswagen Foundation","keywords":"Plasmon; Chirality (physics); Circular polarization; Metamaterial; Circular dichroism; Nanotechnology; Materials science; Photonics; Polarization (electrochemistry); Plasmonic nanoparticles; Physics; Optics; Optoelectronics; Chemistry; Symmetry breaking; Quantum mechanics","score_opus":0.07204367553941739,"score_gpt":0.36469926487677434,"score_spread":0.29265558933735697,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2889643732","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.42152512,0.57609886,0.000009455592,0.000021974844,0.0005155023,0.0015083326,0.00024638863,0.00004755384,0.000026796932],"genre_scores_gemma":[0.027216623,0.96970147,0.0018704621,0.000018796396,0.000135387,0.00089583173,0.00009755039,0.0000545359,0.000009347856],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99563074,0.0009958212,0.0013162332,0.0012232033,0.00025577444,0.0005782401],"domain_scores_gemma":[0.9982088,0.00025410025,0.00063276937,0.0005943572,0.0000954094,0.00021452294],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0027618355,0.00062578573,0.0026038135,0.00010068561,0.00017096441,0.00051234144,0.00028943006,0.00047488546,0.00022608512],"category_scores_gemma":[0.00017780924,0.00042980307,0.000055838456,0.00016177044,0.0011663281,0.00019211987,0.00043397138,0.00012539764,0.00006177601],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024084932,0.0003396318,0.000024225177,0.055298828,0.00018116581,0.000058304664,0.00015646804,7.547008e-7,0.73224634,0.08312027,0.00006402445,0.12826915],"study_design_scores_gemma":[0.0017779643,0.00045925844,0.00024505725,0.012163138,0.0010513413,0.0004871081,0.00010745598,0.0000052688847,0.037429687,0.006193443,0.9379952,0.0020850566],"about_ca_topic_score_codex":0.000017269276,"about_ca_topic_score_gemma":0.000004087073,"teacher_disagreement_score":0.9379312,"about_ca_system_score_codex":0.000085193526,"about_ca_system_score_gemma":0.000086752065,"threshold_uncertainty_score":0.9998154},"labels":[],"label_agreement":null},{"id":"W2892224836","doi":"10.1002/adma.201803366","title":"An Insight into the Phase Transformation of WS<sub>2</sub> upon Fluorination","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Air Force Office of Scientific Research; Division of Chemistry; Division of Materials Research; Texas Center for Superconductivity, University of Houston; U.S. Air Force; T.L.L Temple Foundation; Department of Science and Technology, Ministry of Science and Technology, India; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; University of Houston; John J. and Rebecca Moores Endowment; Natural Sciences and Engineering Research Council of Canada; Mission on Nano Science and Technology; Indian Institute of Science; National Science Foundation","keywords":"Materials science; Phase (matter); Band gap; Phase transition; Transformation (genetics); Transition metal; Chemical physics; Atomic force microscopy; Nanotechnology; Structural stability; Condensed matter physics; Crystallography; Optoelectronics; Chemistry; Physics","score_opus":0.011382919741766872,"score_gpt":0.29508133211165627,"score_spread":0.2836984123698894,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2892224836","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993878,0.000028375985,0.003921718,0.00027495608,0.00086106174,0.0005836868,0.000106557476,0.000116737734,0.00022890081],"genre_scores_gemma":[0.99617344,0.000055468692,0.0030352399,0.000118512144,0.00031637982,0.00019506749,0.00007716366,0.000024594894,0.0000041025232],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984424,0.00015015111,0.00058766495,0.00028798153,0.00029275048,0.0002390267],"domain_scores_gemma":[0.99876904,0.00004422289,0.0002932107,0.00051896,0.0003130345,0.00006152858],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000810245,0.00017521842,0.00026948264,0.00006388088,0.00029193077,0.000120654346,0.00034256658,0.00007709193,0.00036817195],"category_scores_gemma":[0.00005609964,0.00012748434,0.000033764212,0.00017156277,0.00017580981,0.00091862277,0.000035807232,0.000029603945,0.00022814906],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014494135,0.00012233222,2.8611646e-7,0.000040546573,0.0000028247111,1.6825837e-7,0.0021379027,0.000028381928,0.98225075,0.007517425,0.000023486575,0.0077309404],"study_design_scores_gemma":[0.000733861,0.00033854894,0.00008744392,0.000027406306,0.00001982711,0.000002941224,0.00010250871,0.000032183943,0.9886186,0.00424308,0.0056369244,0.0001566563],"about_ca_topic_score_codex":0.000042980937,"about_ca_topic_score_gemma":0.000035439076,"teacher_disagreement_score":0.007574284,"about_ca_system_score_codex":0.00004535884,"about_ca_system_score_gemma":0.00004396488,"threshold_uncertainty_score":0.51986605},"labels":[],"label_agreement":null},{"id":"W2895629147","doi":"10.1002/adma.201804684","title":"In Situ Li<sub>3</sub>PS<sub>4</sub> Solid‐State Electrolyte Protection Layers for Superior Long‐Life and High‐Rate Lithium‐Metal Anodes","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Key Research and Development Program of China; Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation; National Natural Science Foundation of China; Western University; China Postdoctoral Science Foundation; Canada Research Chairs","keywords":"Materials science; Lithium metal; Lithium (medication); Electrolyte; In situ; Anode; Solid-state; Metal; Chemical engineering; Inorganic chemistry; Electrode; Metallurgy; Engineering physics; Physical chemistry; Organic chemistry","score_opus":0.00776157139840367,"score_gpt":0.21944539926329334,"score_spread":0.21168382786488968,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2895629147","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98186016,0.00020241678,0.01399164,0.00014348775,0.0013675059,0.0013511368,0.00015270046,0.0009159367,0.000014994671],"genre_scores_gemma":[0.99617434,0.0007921409,0.001563252,0.0001226603,0.00032198723,0.000828003,0.000033798093,0.00015221434,0.000011586987],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99756026,0.00006915741,0.00070826017,0.0006157516,0.00016603025,0.000880537],"domain_scores_gemma":[0.9991367,0.00006596975,0.00016626732,0.0003901676,0.00013637048,0.00010454505],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00041920616,0.0005331924,0.00077423826,0.00025641444,0.00016951525,0.00017845175,0.00020330324,0.0002519253,0.000013943939],"category_scores_gemma":[0.00022277312,0.00052633503,0.000059174123,0.00024432922,0.00019926626,0.0010128678,0.00010959671,0.00015245845,0.000049196085],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00048592477,0.000026578538,0.000007076041,0.00032716748,0.000051826137,0.000013918188,0.00008390106,0.00092194276,0.9877942,0.00010019855,0.000044640386,0.010142636],"study_design_scores_gemma":[0.001303213,0.00046002975,0.0007222217,0.00010621563,0.000025850082,0.000025681973,0.000031908694,0.0001312845,0.99057066,0.0056758006,0.0003373141,0.0006097941],"about_ca_topic_score_codex":0.0000091519305,"about_ca_topic_score_gemma":0.000105736595,"teacher_disagreement_score":0.014314176,"about_ca_system_score_codex":0.00013742251,"about_ca_system_score_gemma":0.00003284151,"threshold_uncertainty_score":0.99971884},"labels":[],"label_agreement":null},{"id":"W2895759650","doi":"10.1002/adma.201803830","title":"Butylamine‐Catalyzed Synthesis of Nanocrystal Inks Enables Efficient Infrared CQD Solar Cells","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":83,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Nanocrystal; Butylamine; Nanotechnology; Catalysis; Infrared; Quantum dot solar cell; Chemical engineering; Solar cell; Optoelectronics; Polymer solar cell; Organic chemistry; Optics; Chemistry","score_opus":0.0044751173735416115,"score_gpt":0.1970884060790089,"score_spread":0.1926132887054673,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2895759650","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99473876,0.000053958374,0.001598541,0.000010746646,0.0007418188,0.00028405426,0.0005903117,0.00024797732,0.0017338567],"genre_scores_gemma":[0.99549705,0.00007919127,0.003919643,0.000011112038,0.0001962732,0.00013939494,0.00003396567,0.000053315263,0.00007004455],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998796,0.000027519149,0.00047838542,0.00021853486,0.00016451339,0.00031505935],"domain_scores_gemma":[0.99921954,0.00006994934,0.00010691467,0.00042522256,0.00011269267,0.000065657376],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020240275,0.00021196874,0.00039367922,0.00008796711,0.00007512852,0.00004902582,0.0002261679,0.00010064776,0.00049113197],"category_scores_gemma":[0.00006588089,0.0002007161,0.00004421413,0.0001495357,0.00010684517,0.0001033475,0.00007237708,0.000030576568,0.00013331149],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000025802432,0.000032004657,9.2851184e-7,0.0001476958,0.00002204211,9.75786e-7,0.000099836856,0.0013277736,0.9971171,0.00014818933,0.0002272703,0.0008504059],"study_design_scores_gemma":[0.00022867048,0.000022630138,0.000088503344,0.000072723764,0.000022555136,0.0000022467636,0.000038985,0.00012601231,0.99136454,0.00019271036,0.0076236343,0.00021679486],"about_ca_topic_score_codex":0.000017494247,"about_ca_topic_score_gemma":0.0000035196679,"teacher_disagreement_score":0.0073963637,"about_ca_system_score_codex":0.00004296889,"about_ca_system_score_gemma":0.000017339282,"threshold_uncertainty_score":0.81849647},"labels":[],"label_agreement":null},{"id":"W2896508033","doi":"10.1002/adma.201804867","title":"A Surface Reconstruction Route to High Productivity and Selectivity in CO<sub>2</sub> Electroreduction toward C<sub>2+</sub> Hydrocarbons","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":269,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research; University of Toronto; University of New Brunswick; University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Selectivity; Materials science; Catalysis; Faraday efficiency; Electrochemistry; Inorganic chemistry; Current density; Chemical engineering; Copper chloride; Oxide; Ethylene; Copper; Carbon fibers; Electrode; Metallurgy; Composite material; Organic chemistry; Chemistry; Physical chemistry","score_opus":0.00858526948151816,"score_gpt":0.24337884487290537,"score_spread":0.2347935753913872,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2896508033","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9954522,0.00004694591,0.0008090147,0.00046176472,0.0016927968,0.0008064599,0.000035485722,0.000481801,0.00021347878],"genre_scores_gemma":[0.9974708,0.00016243337,0.0012100129,0.000044511184,0.0007713491,0.00019652676,0.000044990924,0.000069734,0.00002964572],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99738747,0.00023376397,0.0005242699,0.0009862465,0.00028694212,0.00058128213],"domain_scores_gemma":[0.9988941,0.00003116949,0.00025094414,0.0004922722,0.00017811224,0.00015337707],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0006716663,0.00038529656,0.0005733963,0.00024260473,0.00018714901,0.000098419296,0.00013400958,0.0002091223,0.000017870669],"category_scores_gemma":[0.00019945603,0.00042047683,0.000056239114,0.0006780352,0.00017111332,0.00074060174,0.000087829794,0.00018514937,0.000046111974],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041016613,0.00007721902,0.00007844769,0.0000338322,0.00002605129,0.0000025694658,0.0001656763,0.00009190911,0.92301005,0.0005400155,0.00011318926,0.07545085],"study_design_scores_gemma":[0.00045915833,0.0003696885,0.0025465193,0.000062897234,0.000029042314,0.00017276993,0.000049301245,0.000008792691,0.9886841,0.0065083955,0.00064762746,0.00046167965],"about_ca_topic_score_codex":0.00075459026,"about_ca_topic_score_gemma":0.0011004036,"teacher_disagreement_score":0.07498917,"about_ca_system_score_codex":0.0005148283,"about_ca_system_score_gemma":0.000104060215,"threshold_uncertainty_score":0.9998247},"labels":[],"label_agreement":null},{"id":"W2896696885","doi":"10.1002/adma.201804504","title":"Sulfuration of an Fe–N–C Catalyst Containing Fe<i><sub>x</sub></i>C/Fe Species to Enhance the Catalysis of Oxygen Reduction in Acidic Media and for Use in Flexible Zn–Air Batteries","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":350,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada)","funders":"National Natural Science Foundation of China","keywords":"Catalysis; Materials science; Oxygen reduction reaction; Oxygen reduction; Oxygen; Chemical engineering; Inorganic chemistry; Nanotechnology; Nuclear chemistry; Organic chemistry; Physical chemistry; Chemistry; Electrochemistry","score_opus":0.0146077082969197,"score_gpt":0.25794046964722106,"score_spread":0.24333276135030135,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2896696885","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9986982,0.000053065763,0.00030950294,0.00016361434,0.0003049979,0.0003689719,0.000032535467,0.00003437164,0.000034767458],"genre_scores_gemma":[0.9980205,0.000086643755,0.0011938772,0.00004927909,0.00013171688,0.00012864204,0.00031678381,0.000035473837,0.00003703],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982734,0.00012195093,0.0006623653,0.00040352374,0.00022629862,0.00031249216],"domain_scores_gemma":[0.99870664,0.00015731476,0.00035055823,0.00044320006,0.0002889525,0.00005330971],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00066562905,0.00021020211,0.0004897908,0.00029275034,0.00008479211,0.000033027212,0.00019915165,0.000099104385,0.000012448632],"category_scores_gemma":[0.00046625666,0.00018785422,0.000038733237,0.0004650446,0.0002421586,0.0009597232,0.00007912829,0.00004685822,0.0000036864378],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":true,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010382839,0.000034787878,0.000055044955,0.000060823186,0.00002379573,9.72693e-7,0.0019993505,0.00047827855,0.9925343,0.0007464047,0.000017812068,0.0030101838],"study_design_scores_gemma":[0.0005403142,0.00032053838,0.0023337374,0.00010483211,0.00003320403,0.00000475509,0.00095251977,0.000018059227,0.99443984,0.000835854,0.0002289416,0.00018740226],"about_ca_topic_score_codex":0.0026115198,"about_ca_topic_score_gemma":0.024458488,"teacher_disagreement_score":0.021846969,"about_ca_system_score_codex":0.00016320191,"about_ca_system_score_gemma":0.000059422102,"threshold_uncertainty_score":0.9933426},"labels":[],"label_agreement":null},{"id":"W2897074242","doi":"10.1002/adma.201803263","title":"Construction of Hierarchically Porous Nanoparticles@Metal–Organic Frameworks Composites by Inherent Defects for the Enhancement of Catalytic Efficiency","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Argonne National Laboratory; Office of Energy Efficiency; Office of Science; National Natural Science Foundation of China; University of Chicago; Postdoctoral Science Foundation of Jiangsu Province; Organization Department of the Central Committee of the Communist Party of China; National Key Research and Development Program of China; China Scholarship Council; Office of Energy Efficiency and Renewable Energy; U.S. Department of Energy","keywords":"Materials science; Selectivity; Catalysis; Metal-organic framework; Nanoparticle; Mesoporous material; Olefin fiber; Annealing (glass); Porosity; Chemical engineering; Nanotechnology; Composite material; Organic chemistry; Adsorption; Polymer; Chemistry","score_opus":0.008400520426513975,"score_gpt":0.24633462395357897,"score_spread":0.23793410352706498,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2897074242","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9664988,0.0004412954,0.03196998,0.00015512957,0.00020585388,0.0004007178,0.00012865613,0.000031005296,0.00016854727],"genre_scores_gemma":[0.98995906,0.00010574698,0.009509987,0.000048236765,0.000085417414,0.00016836775,0.000032223386,0.000027359392,0.0000636292],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985723,0.0000273034,0.00063699146,0.00028248457,0.00023188001,0.00024904957],"domain_scores_gemma":[0.99820036,0.0005162136,0.0004788455,0.0005490628,0.00020574826,0.000049769424],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00026371703,0.00017248806,0.0003754785,0.00002230569,0.00014137331,0.000024246052,0.00030540302,0.00016444057,0.0013272882],"category_scores_gemma":[0.00033496233,0.00012846103,0.00006890219,0.00014329328,0.00040304376,0.00005610996,0.00007456142,0.000103274084,0.000014346753],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000078180594,0.00017848276,0.000013005317,0.0001428898,0.000056961213,6.470534e-8,0.00009249256,0.0000059283257,0.9913715,0.0029425668,0.000068665,0.0050492245],"study_design_scores_gemma":[0.0003280841,0.000107370404,0.000020319872,0.00013167039,0.00011050929,0.0000031673987,0.00008713386,0.000036946352,0.9953308,0.0030838659,0.0006286425,0.00013148278],"about_ca_topic_score_codex":0.00000932652,"about_ca_topic_score_gemma":0.0000028447087,"teacher_disagreement_score":0.023460217,"about_ca_system_score_codex":0.000037656668,"about_ca_system_score_gemma":0.000042132135,"threshold_uncertainty_score":0.9995856},"labels":[],"label_agreement":null},{"id":"W2898442600","doi":"10.1002/adma.201804271","title":"A Lithium–Sulfur Battery using a 2D Current Collector Architecture with a Large‐Sized Sulfur Host Operated under High Areal Loading and Low E/S Ratio","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; University of Waterloo","funders":"Argonne National Laboratory; Waterloo Institute for Nanotechnology, University of Waterloo; Natural Sciences and Engineering Research Council of Canada; Division of Materials Research; Office of Science; University of Chicago; U.S. Department of Energy","keywords":"Materials science; Sulfur; Lithium–sulfur battery; Battery (electricity); Current collector; Host (biology); Lithium (medication); Current (fluid); Nanotechnology; Electrical engineering; Power (physics); Metallurgy; Engineering","score_opus":0.009925138996842978,"score_gpt":0.2340378339585603,"score_spread":0.22411269496171732,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2898442600","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9553016,0.0002778378,0.04131601,0.000083834435,0.0011693633,0.0006310555,0.0003243972,0.0008688345,0.000027111553],"genre_scores_gemma":[0.98907596,0.00014831463,0.010049062,0.000099829784,0.0003011892,0.00011357364,0.000053802487,0.00012466537,0.000033623004],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980277,0.000062999934,0.00047725267,0.00051895884,0.00021535656,0.00069775217],"domain_scores_gemma":[0.99914086,0.000066574474,0.00013422055,0.0004000976,0.00015797635,0.00010025023],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00016867208,0.0005122355,0.0006868488,0.0001836134,0.0002583404,0.00026437707,0.00019813523,0.00015529862,0.00020138327],"category_scores_gemma":[0.000060877148,0.00041566903,0.000028794902,0.00031805734,0.00018906251,0.00039888293,0.00014301215,0.00016279351,0.000015979724],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028385257,0.000030064133,0.000023785698,0.00021004227,0.000060819395,0.000017975657,0.00017811584,0.004159249,0.9943863,0.0001534472,0.00006937528,0.000426987],"study_design_scores_gemma":[0.0021271375,0.00019922532,0.00049303693,0.0005187518,0.000045005887,0.000069116104,0.00012271506,0.00038064522,0.9938146,0.0005891188,0.0010127941,0.0006278409],"about_ca_topic_score_codex":0.000017262135,"about_ca_topic_score_gemma":0.00004772857,"teacher_disagreement_score":0.033774387,"about_ca_system_score_codex":0.00014886276,"about_ca_system_score_gemma":0.00005858842,"threshold_uncertainty_score":0.99982953},"labels":[],"label_agreement":null},{"id":"W2901826418","doi":"10.1002/adma.201805609","title":"The Absence and Importance of Operando Techniques for Metal‐Free Catalysts","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Office of Energy Efficiency; Waterloo Institute for Nanotechnology, University of Waterloo; Higher Education Discipline Innovation Project; Program for Innovative Research Team of Ningbo Novel Photoelectric Materials and Devices; Office of Science; National Natural Science Foundation of China; University of Chicago; Natural Sciences and Engineering Research Council of Canada; Henan University; Argonne National Laboratory; Office of Energy Efficiency and Renewable Energy; U.S. Department of Energy","keywords":"Characterization (materials science); Nanotechnology; Materials science; Catalysis; Metal; Electrochemistry; Electrode; Chemistry; Metallurgy; Organic chemistry; Physical chemistry","score_opus":0.01770602937078774,"score_gpt":0.30021990240939195,"score_spread":0.2825138730386042,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2901826418","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00022175962,0.9973294,0.000049735503,0.000015783218,0.0004382133,0.0010939505,0.00009127366,0.0001082239,0.00065167586],"genre_scores_gemma":[0.00023495838,0.99521655,0.0025875147,0.000017959901,0.00019294371,0.0007732411,0.0002130097,0.000105037434,0.0006587787],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9977197,0.00011010656,0.0009609899,0.0005329062,0.00028532706,0.00039094934],"domain_scores_gemma":[0.9971037,0.000410784,0.0009079005,0.0012094148,0.00031096983,0.000057225916],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0010471747,0.00045073056,0.0016593952,0.000091149726,0.00018292335,0.000047788937,0.0008336569,0.00024627926,0.000019142222],"category_scores_gemma":[0.0007080203,0.00028396197,0.00023783153,0.00017224665,0.0002451732,0.00020201415,0.00026200616,0.00007561157,0.000008727726],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020447448,0.00002817115,2.37686e-7,0.014537417,0.00055858307,0.000005735131,0.00003185307,3.4680124e-7,0.051277727,0.022613086,0.0017585419,0.9089838],"study_design_scores_gemma":[0.00020249313,0.00008904186,8.826442e-8,0.001669865,0.00026386,0.000019067258,0.000002982157,7.4601935e-8,0.2688704,0.002164724,0.7264826,0.0002347661],"about_ca_topic_score_codex":0.00010538273,"about_ca_topic_score_gemma":0.0002667853,"teacher_disagreement_score":0.90874904,"about_ca_system_score_codex":0.00012287799,"about_ca_system_score_gemma":0.00014584968,"threshold_uncertainty_score":0.99996126},"labels":[],"label_agreement":null},{"id":"W2902416369","doi":"10.1002/adma.201805680","title":"Is 3D Printing of Pharmaceuticals a Disruptor or Enabler?","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"","keywords":"Enabling; Pharmaceutical manufacturing; Materials science; 3D printing; Nanotechnology; Scale (ratio); Pharmaceutical industry; Biochemical engineering; Process engineering; Manufacturing engineering; Risk analysis (engineering); Business; Engineering; Pharmacology; Medicine","score_opus":0.11990562102483421,"score_gpt":0.44308501512478016,"score_spread":0.32317939409994595,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2902416369","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00029776176,0.99466485,0.00044286417,0.000007202168,0.0014917149,0.001182651,0.00028276278,0.0003438701,0.0012863512],"genre_scores_gemma":[0.00007419497,0.98853767,0.009895606,0.000017149456,0.00048222044,0.0002740996,0.000025950261,0.00017488719,0.00051823485],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99679375,0.00014283578,0.0012690026,0.00046029562,0.0005966315,0.00073750806],"domain_scores_gemma":[0.99815816,0.00056939654,0.00026583768,0.0006563078,0.00014561035,0.0002046801],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011797972,0.00048759917,0.0019978704,0.00021897099,0.000043623913,0.000064654894,0.0006860124,0.00035730345,0.00420647],"category_scores_gemma":[0.0013191978,0.0003541323,0.00020171695,0.0004365287,0.00019839461,0.000110998095,0.00039205462,0.0002836404,0.00059455365],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016980255,0.000024086194,1.1671208e-7,0.08558746,0.00022384628,0.000016278173,0.00003942123,0.0000013891189,0.007716533,0.00002534668,0.0008462916,0.90550226],"study_design_scores_gemma":[0.00018164792,0.000037119098,3.042526e-7,0.014271356,0.00015168337,0.000015263713,0.0000025763322,0.0000143276975,0.04125352,0.00003864143,0.9436874,0.00034620377],"about_ca_topic_score_codex":0.0000030658125,"about_ca_topic_score_gemma":3.291279e-7,"teacher_disagreement_score":0.94284105,"about_ca_system_score_codex":0.00018965302,"about_ca_system_score_gemma":0.0001811984,"threshold_uncertainty_score":0.99989104},"labels":[],"label_agreement":null},{"id":"W2903158138","doi":"10.1002/adma.201806993","title":"Amorphous Quantum Nanomaterials","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Institute of General Medical Sciences; Basic Energy Sciences; Materials Research Science and Engineering Center, Harvard University; Cornell Center for Materials Research; Alfred P. Sloan Foundation; U.S. Department of Energy; Division of Materials Research; Office of Science; National Cancer Institute; National Institutes of Health; National Science Foundation","keywords":"Amorphous solid; Materials science; Nanomaterials; Delocalized electron; Nanotechnology; Quantum; Chemical physics; Spectroscopy; Crystallography; Physics; Quantum mechanics","score_opus":0.015970666001954004,"score_gpt":0.2479928660947383,"score_spread":0.2320222000927843,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2903158138","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9912454,0.0002648206,0.00014694639,0.0001312295,0.005192436,0.0003003576,0.00013134081,0.00041942467,0.0021680675],"genre_scores_gemma":[0.9948025,0.00009230036,0.0030759717,0.00034329493,0.0009887533,0.0000914911,0.000008942458,0.00006496359,0.00053177937],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99757046,0.00022437902,0.0006391943,0.000546178,0.00038469842,0.0006350687],"domain_scores_gemma":[0.9986627,0.00008514305,0.00026287808,0.0006351108,0.00023598844,0.00011819571],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00104878,0.00031259042,0.0005407167,0.00007489134,0.0003312361,0.0002985841,0.00046918355,0.00011126625,0.01764719],"category_scores_gemma":[0.00032456557,0.00023915379,0.000055367964,0.00010424396,0.00038688642,0.000523819,0.00016430693,0.000031242045,0.00802599],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026476922,0.000035653058,0.0000048647803,0.000035600413,0.0000060075963,0.000009744649,0.00017094299,0.000001433525,0.9928893,0.0043666447,0.001344599,0.0008704284],"study_design_scores_gemma":[0.00030362397,0.0002656238,0.00013511417,0.000060143062,0.000014320618,0.00003231979,0.000051023384,0.000003258048,0.9492771,0.0029554071,0.046549343,0.00035272283],"about_ca_topic_score_codex":0.000076904485,"about_ca_topic_score_gemma":0.000009381619,"teacher_disagreement_score":0.045204744,"about_ca_system_score_codex":0.000056006258,"about_ca_system_score_gemma":0.00006498306,"threshold_uncertainty_score":0.99274635},"labels":[],"label_agreement":null},{"id":"W2903412357","doi":"10.1002/adma.201806541","title":"A Novel Organic “Polyurea” Thin Film for Ultralong‐Life Lithium‐Metal Anodes via Molecular‐Layer Deposition","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":281,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Western University; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canada Foundation for Innovation","keywords":"Polyurea; Materials science; Lithium metal; Layer (electronics); Deposition (geology); Lithium (medication); Thin film; Anode; Atomic layer deposition; Layer by layer; Nanotechnology; Metal; Chemical engineering; Metallurgy; Electrode; Coating","score_opus":0.01157899471399959,"score_gpt":0.2502157185598335,"score_spread":0.2386367238458339,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2903412357","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.5956867,0.00008619236,0.40006086,0.00004345365,0.0025199633,0.00064954406,0.0002989008,0.00046240698,0.00019200463],"genre_scores_gemma":[0.91823375,0.000019182615,0.079844244,0.00061318954,0.0005491143,0.00028665861,0.00016551817,0.00018300884,0.00010530419],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979648,0.00004190884,0.00066535285,0.00044842018,0.00026515755,0.0006143615],"domain_scores_gemma":[0.9989753,0.00006742183,0.0001555176,0.0005045686,0.00017684369,0.00012036525],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002773045,0.00042726347,0.0005258079,0.00009615637,0.00013985416,0.00012409457,0.00028728717,0.00016744228,0.0009198371],"category_scores_gemma":[0.00017967768,0.00043406742,0.000058007823,0.00014339105,0.000096792755,0.00063071575,0.00006574461,0.0000616815,0.00019573304],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014166733,0.000046393787,0.0000022352772,0.00017593955,0.000078234094,0.0000038211174,0.00011467833,0.0019263994,0.9965536,0.00034756763,0.00028336473,0.00032608164],"study_design_scores_gemma":[0.0011153824,0.00017112563,0.00008244849,0.00007950928,0.00006248323,0.00003438998,0.000022379241,0.00028073532,0.99437135,0.0024563666,0.00081909256,0.0005047429],"about_ca_topic_score_codex":0.000008256615,"about_ca_topic_score_gemma":0.000006444555,"teacher_disagreement_score":0.3225471,"about_ca_system_score_codex":0.00013023328,"about_ca_system_score_gemma":0.000024806544,"threshold_uncertainty_score":0.99999344},"labels":[],"label_agreement":null},{"id":"W2904140764","doi":"10.1002/adma.201806761","title":"An Oxygen‐Vacancy‐Rich Semiconductor‐Supported Bifunctional Catalyst for Efficient and Stable Zinc–Air Batteries","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":208,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Brookhaven National Laboratory; Basic Energy Sciences; Natural Sciences and Engineering Research Council of Canada; Office of Science; Higher Education Discipline Innovation Project; U.S. Department of Energy","keywords":"Bifunctional; Materials science; Catalysis; Bifunctional catalyst; Chemical engineering; Zinc; Semiconductor; Oxygen; Battery (electricity); Oxide; Metal; Inorganic chemistry; Nanotechnology; Metallurgy; Optoelectronics; Chemistry; Organic chemistry","score_opus":0.00966218300548837,"score_gpt":0.24374435274712353,"score_spread":0.23408216974163515,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2904140764","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966359,0.00008934667,0.00060413824,0.00010838097,0.001173667,0.0003092149,0.000106208914,0.0002033724,0.00076975493],"genre_scores_gemma":[0.99506354,0.000018962797,0.0020547982,0.00030377446,0.00052427826,0.00015099093,0.00076392025,0.000077825054,0.0010419338],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99802965,0.000057229176,0.0004101283,0.00062666094,0.00031635855,0.00055995426],"domain_scores_gemma":[0.9986255,0.00006643291,0.00019655588,0.00049467443,0.00046363054,0.00015316518],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00036981702,0.0003067622,0.00038476897,0.00014097267,0.00032926764,0.000064028194,0.00021028142,0.0001334811,0.00095038785],"category_scores_gemma":[0.00010523854,0.00029119983,0.00004159175,0.0001919014,0.00017140401,0.0004723318,0.00008139599,0.00004896007,0.0000944314],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004311271,0.000057330093,0.00003234368,0.00005995159,0.000057462083,0.000002261199,0.00012417197,0.0003748508,0.99397993,0.0034745038,0.0007131787,0.000692874],"study_design_scores_gemma":[0.0010126871,0.00040930032,0.00045508845,0.000024344628,0.000055026016,0.00002064155,0.00013234964,0.000070905204,0.9482355,0.00081282534,0.04841975,0.00035157314],"about_ca_topic_score_codex":0.00035992314,"about_ca_topic_score_gemma":0.00034224024,"teacher_disagreement_score":0.04770657,"about_ca_system_score_codex":0.00019865818,"about_ca_system_score_gemma":0.00011212816,"threshold_uncertainty_score":0.99996287},"labels":[],"label_agreement":null},{"id":"W2905049004","doi":"10.1002/adma.201805230","title":"Recent Progress in Electrically Rechargeable Zinc–Air Batteries","year":2018,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":581,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Higher Education Discipline Innovation Project","keywords":"Battery (electricity); Materials science; Zinc; Energy storage; Nanotechnology; Bifunctional; Anode; Electrolyte; Current collector; Electrode; Catalysis; Metallurgy; Chemistry; Power (physics)","score_opus":0.03742102989430219,"score_gpt":0.3393334620277735,"score_spread":0.3019124321334713,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2905049004","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00013208753,0.9947317,0.00015793098,0.000041628908,0.0010766749,0.0017124942,0.00015249403,0.001429166,0.0005657748],"genre_scores_gemma":[0.000020673535,0.9902783,0.0068076113,0.000020990536,0.00017612621,0.0020045151,0.00016712751,0.00027766157,0.00024696303],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.996233,0.00015556745,0.0012017211,0.00075811264,0.00041517548,0.0012364308],"domain_scores_gemma":[0.998307,0.0001691679,0.00022324563,0.0010608457,0.00014426908,0.000095495554],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005045079,0.0007869586,0.0022609069,0.00060502964,0.000063243824,0.000086456195,0.0010227168,0.0006582588,0.00052488386],"category_scores_gemma":[0.0003373494,0.00070230936,0.0001229064,0.0010917275,0.00020036868,0.0003615246,0.0003472696,0.00055962993,0.0007915892],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016425298,0.000027509719,6.4103415e-7,0.008965692,0.00005005587,0.000053687494,0.0000068554646,0.000013706772,0.00051458087,0.00004355426,0.0016790824,0.9886282],"study_design_scores_gemma":[0.00018638978,0.000100258025,0.0000012016751,0.0050826618,0.000031638472,0.000028672519,0.000003615172,0.000002568222,0.012736455,0.0005199956,0.98061526,0.0006912728],"about_ca_topic_score_codex":7.3994664e-7,"about_ca_topic_score_gemma":0.0000054317698,"teacher_disagreement_score":0.9879369,"about_ca_system_score_codex":0.0010348283,"about_ca_system_score_gemma":0.00012692294,"threshold_uncertainty_score":0.9999864},"labels":[],"label_agreement":null},{"id":"W2906267672","doi":"10.1002/adma.201806214","title":"Rationally Designed 3D Hydrogels Model Invasive Lung Diseases Enabling High‐Content Drug Screening","year":2018,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Tuberous Sclerosis Complex Research","field":"Medicine","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa; Ottawa Hospital; University of Toronto","funders":"","keywords":"Lymphangioleiomyomatosis; mTORC1; Self-healing hydrogels; Cancer research; Drug; Lung; Biology; Cell; Tuberous sclerosis; Materials science; Cell biology; Signal transduction; Pathology; Pharmacology; Medicine; PI3K/AKT/mTOR pathway; Internal medicine; Biochemistry","score_opus":0.06711780971404717,"score_gpt":0.3132310431411592,"score_spread":0.246113233427112,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2906267672","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97008294,0.00032563426,0.027053095,0.0006385372,0.00029192705,0.0011052747,0.00013219033,0.00021216295,0.00015826688],"genre_scores_gemma":[0.93636346,0.00007806985,0.060802814,0.0007883503,0.0006466395,0.0002026101,0.00016258027,0.000072316725,0.00088317855],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99746424,0.000133826,0.00052946585,0.00053737103,0.00074795604,0.00058716716],"domain_scores_gemma":[0.99804115,0.00025504327,0.00017191337,0.0005077891,0.00074156624,0.00028255276],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004199388,0.00026825626,0.0005274471,0.00017060265,0.00028816724,0.00011390556,0.00021998388,0.00006389528,0.00062859856],"category_scores_gemma":[0.0007745691,0.00024029941,0.00007468382,0.000177193,0.0001892679,0.00046373083,0.00019056805,0.00009023415,0.000116874966],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00080440845,0.000088654095,0.00032110862,0.00011036568,0.000079444595,0.000020994572,0.00016097525,0.00085952185,0.9948987,0.000523756,0.0005877741,0.001544318],"study_design_scores_gemma":[0.0026441382,0.00020232728,0.0035972423,0.00048594904,0.00010727951,0.000016234784,0.00008529839,0.0019347213,0.98941654,0.0010555635,0.00015505655,0.00029967533],"about_ca_topic_score_codex":0.000077282915,"about_ca_topic_score_gemma":0.000030196814,"teacher_disagreement_score":0.03374972,"about_ca_system_score_codex":0.0001897296,"about_ca_system_score_gemma":0.0002978739,"threshold_uncertainty_score":0.9799126},"labels":[],"label_agreement":null},{"id":"W2907165843","doi":"10.1002/adma.201804846","title":"Integrating PGM‐Free Catalysts into Catalyst Layers and Proton Exchange Membrane Fuel Cell Devices","year":2019,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ballard Power Systems (Canada)","funders":"","keywords":"Proton exchange membrane fuel cell; Catalysis; Materials science; Cathode; Chemical engineering; Platinum; Commercialization; Nanotechnology; Oxygen reduction reaction; Electrode; Electrochemistry; Chemistry; Engineering; Electrical engineering; Organic chemistry; Business","score_opus":0.018101823272542214,"score_gpt":0.279142132003054,"score_spread":0.26104030873051176,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2907165843","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0006699411,0.98967373,0.0000071544996,0.000020762938,0.0011291415,0.002418703,0.00007638666,0.00030504004,0.0056991545],"genre_scores_gemma":[0.0013987229,0.9909597,0.0015456869,0.00006395338,0.000344608,0.0011869915,0.0024302106,0.00034104032,0.0017290559],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99525225,0.0003642465,0.001374183,0.0014298589,0.0007053496,0.0008740932],"domain_scores_gemma":[0.9960997,0.00027583705,0.0013929034,0.001757536,0.00025099935,0.00022300133],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008707799,0.0012618486,0.0033025194,0.00049936416,0.00018615519,0.0002050483,0.0011963283,0.00070265715,0.00020263241],"category_scores_gemma":[0.00031397198,0.0010447768,0.00034150892,0.0005231375,0.00011542766,0.00075677485,0.00081012887,0.0003855815,0.00047686786],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011142782,0.00009122465,9.269415e-7,0.39408702,0.00049334887,0.00007958963,0.0006039938,0.000011988753,0.054070745,0.00072704855,0.0003136253,0.54940903],"study_design_scores_gemma":[0.00067989586,0.0001257149,1.12404976e-7,0.0072880564,0.0008890091,0.0000480128,0.000064872474,9.586275e-7,0.1352428,0.00022955416,0.8544208,0.0010102191],"about_ca_topic_score_codex":0.0031326476,"about_ca_topic_score_gemma":0.0021957417,"teacher_disagreement_score":0.85410714,"about_ca_system_score_codex":0.0007010187,"about_ca_system_score_gemma":0.00032516132,"threshold_uncertainty_score":0.9992002},"labels":[],"label_agreement":null},{"id":"W2911824053","doi":"10.1002/adma.201807201","title":"An Ultra‐Shapeable, Smart Sensing Platform Based on a Multimodal Ferrofluid‐Infused Surface","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; University of Toronto","funders":"National Institute of Environmental Health Sciences; National Institute of Biomedical Imaging and Bioengineering; U.S. Department of Energy; National Institutes of Health; National Science Foundation","keywords":"Triboelectric effect; Materials science; Wearable computer; Ferrofluid; Nanogenerator; Context (archaeology); Ballast; Nanotechnology; Wearable technology; Computer science; Electrical engineering; Magnetic field; Embedded system; Composite material; Engineering","score_opus":0.010582858937952761,"score_gpt":0.22715443008867556,"score_spread":0.21657157115072279,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2911824053","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9887471,0.000016785392,0.0026034333,0.000011845054,0.002419072,0.00041765513,0.000120825054,0.0013434263,0.004319835],"genre_scores_gemma":[0.9797817,0.000020976071,0.019331649,0.00019485198,0.00014799883,0.000009599828,0.00015701889,0.00018537934,0.00017082249],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99781245,0.00006746507,0.0005534365,0.0005113402,0.0003460068,0.00070932857],"domain_scores_gemma":[0.9986969,0.00017163645,0.00010442083,0.00074770494,0.00009217801,0.00018715582],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00034027212,0.00049338443,0.0006346823,0.000101982296,0.000109496745,0.00015043914,0.00022681254,0.00018768675,0.00058546336],"category_scores_gemma":[0.00008667534,0.0004897532,0.000064605345,0.00015440762,0.00003705208,0.0006587997,0.000012776676,0.00012696204,0.00044581972],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012245662,0.000017394586,0.00001695098,0.00007452356,0.000008927158,0.00000927337,0.00003257943,0.4410367,0.5582106,0.000057112204,0.000015845693,0.00039763426],"study_design_scores_gemma":[0.0014865757,0.00017716376,0.00032095885,0.00016375352,0.000013376838,0.000008432159,0.000042484182,0.028409977,0.9671759,0.00017967109,0.0013950437,0.00062665547],"about_ca_topic_score_codex":0.00004887807,"about_ca_topic_score_gemma":0.000009023882,"teacher_disagreement_score":0.4126267,"about_ca_system_score_codex":0.0001547165,"about_ca_system_score_gemma":0.000026012023,"threshold_uncertainty_score":0.9997554},"labels":[],"label_agreement":null},{"id":"W2911866738","doi":"10.1002/adma.201970034","title":"Amorphous Quantum Nanomaterials: Amorphous Quantum Nanomaterials (Adv. Mater. 5/2019)","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"","keywords":"Nanomaterials; Materials science; Amorphous solid; Nanotechnology; Amorphous silica; Quantum dot; Nanoparticle; Quantum; Chemical engineering; Organic chemistry; Chemistry; Physics; Quantum mechanics","score_opus":0.01172960565824284,"score_gpt":0.2326866564809874,"score_spread":0.22095705082274458,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2911866738","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9735137,0.0013537643,0.000069779504,0.00019952585,0.019357674,0.0019401343,0.001377995,0.0013125208,0.00087488384],"genre_scores_gemma":[0.9928557,0.0008614302,0.0018008418,0.0004957037,0.00086968386,0.00042247563,0.00017182503,0.00039268815,0.0021296528],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99082005,0.0010707808,0.0026074375,0.0019993065,0.0013106671,0.002191748],"domain_scores_gemma":[0.99513364,0.00038183184,0.0013823849,0.0022809512,0.0004017715,0.00041944874],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.003022307,0.0014029514,0.0025939255,0.00034255427,0.0005336362,0.0013884278,0.0017130078,0.0005510502,0.032991715],"category_scores_gemma":[0.00045438687,0.0011456735,0.00030227285,0.0003167821,0.00042860545,0.0018495315,0.0007000492,0.00015546854,0.025587862],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014081758,0.00019873295,0.000053293206,0.00052088295,0.0000519815,0.000098891374,0.00032316812,0.00008867662,0.9884723,0.0062819906,0.0021626626,0.00033925663],"study_design_scores_gemma":[0.0015400578,0.00057478744,0.0003417577,0.00039658608,0.00008416735,0.0002434593,0.00019737642,0.000028817216,0.9624478,0.0028796059,0.029631656,0.0016338996],"about_ca_topic_score_codex":0.00048532322,"about_ca_topic_score_gemma":0.000011200695,"teacher_disagreement_score":0.027468992,"about_ca_system_score_codex":0.000293383,"about_ca_system_score_gemma":0.00026791985,"threshold_uncertainty_score":0.9998721},"labels":[],"label_agreement":null},{"id":"W2913293393","doi":"10.1002/adma.201807435","title":"In Situ Back‐Contact Passivation Improves Photovoltage and Fill Factor in Perovskite Solar Cells","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":168,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Science Foundation of Henan Province; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; Office of Naval Research; National Natural Science Foundation of China; Natural Sciences and Engineering Research Council of Canada; Henan University; China Scholarship Council; U.S. Department of Energy","keywords":"Passivation; Materials science; Perovskite (structure); Optoelectronics; Semiconductor; Layer (electronics); Energy conversion efficiency; Band gap; Polymer; Nanotechnology; Chemical engineering; Composite material","score_opus":0.0046273040103932735,"score_gpt":0.20413583581018352,"score_spread":0.19950853179979025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2913293393","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981344,0.000049528247,0.00008777178,0.000028738377,0.0004775374,0.00052795705,0.00013327789,0.0000642129,0.0004965927],"genre_scores_gemma":[0.9987792,0.00022460737,0.0005854114,0.00008080895,0.00004621872,0.000092685106,0.000034622226,0.00003683029,0.00011965543],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990647,0.000020443253,0.0003416257,0.00023613517,0.00007919265,0.0002578916],"domain_scores_gemma":[0.9996369,0.000039440154,0.000052392883,0.00020919595,0.000021409838,0.000040685132],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000102419195,0.00018087753,0.0002994362,0.00009966402,0.00001581525,0.00007302242,0.00008740438,0.00008970442,0.00052848144],"category_scores_gemma":[0.000013205481,0.00017969188,0.00001671517,0.00009661227,0.0000098756955,0.00044465598,0.00003480484,0.00005790188,0.00021086054],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015040155,0.000013884666,0.00010571038,0.00013382694,0.00000335906,0.0000015880735,0.00014520026,0.000256458,0.99882054,0.00005873035,0.000045233064,0.0004004511],"study_design_scores_gemma":[0.00062770315,0.000021846376,0.013636996,0.000053227388,0.000001959058,9.1731243e-7,0.000033671135,0.0000993143,0.97871155,0.00019346083,0.0064054616,0.00021387],"about_ca_topic_score_codex":0.00006649286,"about_ca_topic_score_gemma":0.00006775659,"teacher_disagreement_score":0.020108946,"about_ca_system_score_codex":0.00007157809,"about_ca_system_score_gemma":0.00000757742,"threshold_uncertainty_score":0.7327622},"labels":[],"label_agreement":null},{"id":"W2916444796","doi":"10.1002/adma.201807083","title":"Stoichiometric Engineering of Chalcogenide Semiconductor Alloys for Nanophotonic Applications","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Engineering and Physical Sciences Research Council; Ministry of Education, India; Ministry of Education - Singapore","keywords":"Materials science; Chalcogenide; Plasmon; Figure of merit; Semiconductor; Nanophotonics; Metamaterial; Optoelectronics; Dielectric; Nitride; Nanotechnology","score_opus":0.010926233044326418,"score_gpt":0.22870029303786513,"score_spread":0.21777405999353872,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2916444796","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964157,0.00071869424,0.00062497973,0.000019213012,0.00071492745,0.0011000943,0.0002148212,0.000080301965,0.00011127737],"genre_scores_gemma":[0.9886082,0.00010609783,0.010303804,0.000027451999,0.00006685578,0.0005775263,0.000012631553,0.00003822465,0.0002592272],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988143,0.00002413803,0.00040787936,0.00029781187,0.00017487339,0.0002809918],"domain_scores_gemma":[0.9990421,0.00019386307,0.00020428466,0.0003817374,0.00013305683,0.000044970562],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004606571,0.00015620096,0.00038701764,0.0001499395,0.000043987344,0.000034424324,0.00026870993,0.00006042306,0.001041636],"category_scores_gemma":[0.0001460244,0.00013088212,0.00006185263,0.00018910847,0.000028526003,0.00021685459,0.000053922573,0.000021844487,0.00022853908],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000055321812,0.000023537146,0.000010259424,0.00026827035,0.00000909734,9.60526e-8,0.000038485476,0.0002468927,0.9973048,0.0016583706,0.000027427626,0.00035745717],"study_design_scores_gemma":[0.00038971985,0.00008464365,0.000055398712,0.000043643377,0.000014831823,0.000002280362,0.000026628064,0.00003461406,0.9795982,0.00021135114,0.019368542,0.00017011567],"about_ca_topic_score_codex":0.000009818916,"about_ca_topic_score_gemma":6.309232e-7,"teacher_disagreement_score":0.019341115,"about_ca_system_score_codex":0.00003797066,"about_ca_system_score_gemma":0.000041439056,"threshold_uncertainty_score":0.99987155},"labels":[],"label_agreement":null},{"id":"W2916606343","doi":"10.1002/adma.201807615","title":"PGM‐Free Cathode Catalysts for PEM Fuel Cells: A Mini‐Review on Stability Challenges","year":2019,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":560,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Natural Sciences and Engineering Research Council of Canada; Innovationsfonden; U.S. Department of Energy","keywords":"Proton exchange membrane fuel cell; Catalysis; Materials science; Cathode; Degradation (telecommunications); Transition metal; Oxygen reduction reaction; Fuel cells; Carbon fibers; Platinum; Chemical engineering; Nanotechnology; Inorganic chemistry; Electrode; Chemistry; Electrochemistry; Organic chemistry; Composite material; Physical chemistry","score_opus":0.0778506096827295,"score_gpt":0.32717338493076176,"score_spread":0.24932277524803226,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2916606343","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00002401181,0.9899692,0.0000058144087,0.00012034625,0.0024370644,0.0034930701,0.00053262146,0.00028514193,0.0031327626],"genre_scores_gemma":[0.00004809042,0.99290484,0.000917815,0.00019151253,0.00039648404,0.0021665525,0.002069567,0.0003655997,0.0009395346],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99400795,0.0006253963,0.0017315808,0.0018108127,0.0007747435,0.0010494951],"domain_scores_gemma":[0.9934071,0.00096807105,0.0014106188,0.003612766,0.00039956125,0.00020191078],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0018149758,0.001360905,0.0051981453,0.0002357599,0.00010863405,0.000051815547,0.0015934131,0.00067343947,0.0002671154],"category_scores_gemma":[0.0010319538,0.001123635,0.0009263668,0.00027347964,0.00007720903,0.00028213015,0.0003841806,0.0002839979,0.00095033285],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010347298,0.00015386098,4.3121737e-9,0.35350627,0.00029402354,0.0000108392305,0.000050896095,0.0000028555062,0.0032710796,0.002715521,0.002245322,0.63764584],"study_design_scores_gemma":[0.00063942437,0.0003251457,5.0839166e-8,0.03630783,0.001610981,0.000016217537,0.000010712363,1.0778655e-7,0.04423428,0.00061502104,0.91521,0.0010302394],"about_ca_topic_score_codex":0.00011690655,"about_ca_topic_score_gemma":0.00028965797,"teacher_disagreement_score":0.91296464,"about_ca_system_score_codex":0.0010371505,"about_ca_system_score_gemma":0.0005076958,"threshold_uncertainty_score":0.99991417},"labels":[],"label_agreement":null},{"id":"W2916769082","doi":"10.1002/adma.201808336","title":"Electro‐Optic Modulation in Hybrid Metal Halide Perovskites","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Birefringence; Perovskite (structure); Halide; Crystal (programming language); Optoelectronics; Anisotropy; Raman spectroscopy; Crystal structure; Optics; Crystallography; Inorganic chemistry; Chemistry","score_opus":0.003939497080362125,"score_gpt":0.20391411155359215,"score_spread":0.19997461447323003,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2916769082","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974061,0.00008866786,0.00045499552,0.000027749753,0.0004287576,0.0003465853,0.000046910278,0.00022379126,0.0009764404],"genre_scores_gemma":[0.9978225,0.00005085697,0.0016720882,0.000021696216,0.0000700322,0.00012275092,0.0000851811,0.000041545434,0.00011330925],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99910784,0.000020577185,0.00029786877,0.00019504393,0.00010913333,0.00026955456],"domain_scores_gemma":[0.99963045,0.00002687988,0.00003792813,0.00024666486,0.000024426754,0.000033632834],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014393669,0.00015573968,0.00026245273,0.00007468212,0.000021313364,0.000054895205,0.00010831033,0.00003883153,0.0005284901],"category_scores_gemma":[0.000016949945,0.00015739237,0.000026376545,0.00009280941,0.0000103419825,0.0002661443,0.00002127935,0.000041103838,0.0004206013],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009197072,0.000010994597,0.000039632894,0.000047676498,0.000007067899,0.0000015590543,0.00002025834,0.015755251,0.98233306,0.0011574571,0.00002900409,0.00058885844],"study_design_scores_gemma":[0.00035345243,0.000021486054,0.0036413288,0.000025659581,0.0000061511328,0.000007380714,0.000008580051,0.0015517876,0.9904254,0.0019335699,0.0018179673,0.00020721825],"about_ca_topic_score_codex":0.000014310373,"about_ca_topic_score_gemma":0.0000036649558,"teacher_disagreement_score":0.014203464,"about_ca_system_score_codex":0.00007758438,"about_ca_system_score_gemma":0.000007731069,"threshold_uncertainty_score":0.6418274},"labels":[],"label_agreement":null},{"id":"W2917996577","doi":"10.1002/adma.201807065","title":"Rechargeable Aqueous Electrochromic Batteries Utilizing Ti‐Substituted Tungsten Molybdenum Oxide Based Zn<sup>2+</sup> Ion Intercalation Cathodes","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Transition Metal Oxide Nanomaterials","field":"Materials Science","cited_by":284,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Alberta Innovates","keywords":"Electrochromism; Materials science; Intercalation (chemistry); Battery (electricity); Electrochromic devices; Cathode; Graphene; Tungsten trioxide; Optoelectronics; Nanotechnology; Tungsten; Inorganic chemistry; Electrode; Electrical engineering","score_opus":0.012426858431855665,"score_gpt":0.24251696301163253,"score_spread":0.23009010457977686,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2917996577","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930676,0.00009017116,0.0020618467,0.00011965504,0.0016872345,0.0017852703,0.00029133484,0.0007439155,0.00015294834],"genre_scores_gemma":[0.98924714,0.00001929799,0.009348403,0.00030351977,0.00017300312,0.00027597893,0.00026588072,0.00013118534,0.00023560686],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9951969,0.0007384552,0.0013211048,0.0011315513,0.00067120243,0.0009408293],"domain_scores_gemma":[0.99779814,0.00021837115,0.00054980785,0.00097238977,0.0002859154,0.00017536897],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0017674244,0.00063150213,0.0011111881,0.00030656907,0.00022965229,0.0004747306,0.0005720924,0.00026010908,0.005381032],"category_scores_gemma":[0.00029017494,0.00061234646,0.00013139255,0.00032202693,0.000111103065,0.0016010712,0.00012102966,0.0001351251,0.0024354889],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008684723,0.00015000615,0.00009344608,0.000203539,0.000019456445,0.000026585014,0.00031971998,0.0026375605,0.9953077,0.00018268097,0.00004642764,0.00014442198],"study_design_scores_gemma":[0.0019249489,0.00027660103,0.000771553,0.00024389722,0.00006944106,0.00004110844,0.00027756472,0.00016449184,0.9947199,0.00039914867,0.0004485027,0.00066282495],"about_ca_topic_score_codex":0.00022986019,"about_ca_topic_score_gemma":0.000020800519,"teacher_disagreement_score":0.0072865556,"about_ca_system_score_codex":0.0003904937,"about_ca_system_score_gemma":0.00016706868,"threshold_uncertainty_score":0.9996328},"labels":[],"label_agreement":null},{"id":"W2921329644","doi":"10.1002/adma.201805580","title":"A Facet‐Specific Quantum Dot Passivation Strategy for Colloid Management and Efficient Infrared Photovoltaics","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":132,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"King Abdullah University of Science and Technology; Ministry of Science, ICT and Future Planning; Daegu Gyeongbuk Institute of Science and Technology; Fonds Wetenschappelijk Onderzoek","keywords":"Photovoltaics; Passivation; Materials science; Nanocrystal; Quantum dot; Facet (psychology); Colloid; Nanotechnology; Photoluminescence; Band gap; Optoelectronics; Absorption (acoustics); Energy conversion efficiency; Infrared; Semiconductor; Photovoltaic system; Optics; Chemical engineering; Physics","score_opus":0.02250484660215188,"score_gpt":0.2477808774267515,"score_spread":0.22527603082459963,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2921329644","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9951153,0.00044793214,0.00058730453,0.000051097155,0.0011281173,0.0016639903,0.00022490646,0.000107831846,0.0006735623],"genre_scores_gemma":[0.9943659,0.00027094825,0.0034160207,0.00008169431,0.000058906888,0.0003697985,0.000028001035,0.000038277216,0.0013704805],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982778,0.00007183799,0.00046858803,0.0004986681,0.0002853258,0.0003977709],"domain_scores_gemma":[0.9991448,0.00008482641,0.00022106957,0.0003647298,0.00011875248,0.00006585022],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000590778,0.00024006469,0.0003923677,0.00007770706,0.00016037439,0.00028084748,0.00018806597,0.00007678787,0.0008094425],"category_scores_gemma":[0.000037850037,0.00019465001,0.00003907793,0.00008620942,0.00006899605,0.000225795,0.00009313984,0.000030062169,0.00020846837],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030659474,0.00004508638,0.00000641007,0.00026547254,0.000009724426,0.000001195923,0.00012470405,0.0006309598,0.98677814,0.010556285,0.0005394585,0.0007359717],"study_design_scores_gemma":[0.00095128285,0.00021690596,0.00041327215,0.0001022172,0.00001487354,0.0000025959116,0.0004262107,0.00015442258,0.963337,0.0030045926,0.031084768,0.00029183307],"about_ca_topic_score_codex":0.000011814725,"about_ca_topic_score_gemma":0.0000013662409,"teacher_disagreement_score":0.030545311,"about_ca_system_score_codex":0.00006708769,"about_ca_system_score_gemma":0.000023467215,"threshold_uncertainty_score":0.8862828},"labels":[],"label_agreement":null},{"id":"W2921580945","doi":"10.1002/adma.201808100","title":"High‐Performance Li–SeS<i><sub>x</sub></i> All‐Solid‐State Lithium Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":168,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Western University; Canada Foundation for Innovation; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; China Automotive Battery Research Institute","keywords":"Materials science; Cathode; Electrochemistry; Ionic bonding; Solid solution; Lithium (medication); Solid-state; Energy density; Energy storage; Redistribution (election); Chemical engineering; High energy; Ionic conductivity; Sulfide; Ion; Engineering physics; Nanotechnology; Physical chemistry; Electrode; Thermodynamics; Metallurgy; Chemistry","score_opus":0.0061366478345445084,"score_gpt":0.21742022484822016,"score_spread":0.21128357701367564,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2921580945","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9872395,0.000097932396,0.0007493209,0.00007468692,0.009198722,0.00076209556,0.00028426116,0.0009795866,0.00061391847],"genre_scores_gemma":[0.9943044,0.00089206203,0.0027067778,0.0007654429,0.00032821906,0.0002365414,0.00012753782,0.00023404484,0.000404954],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99701273,0.00006966421,0.0009458966,0.00057505595,0.00043210364,0.0009645584],"domain_scores_gemma":[0.99857515,0.00007823398,0.00020624815,0.0009016491,0.00010697873,0.0001317394],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00035655286,0.0006217229,0.0008480884,0.0001360889,0.00008507067,0.00018696711,0.00046419157,0.00014498299,0.0009736029],"category_scores_gemma":[0.000037440775,0.0006360622,0.00004597604,0.00016091368,0.00008591281,0.0013968783,0.00020683164,0.00014111007,0.003196411],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012442275,0.000022848864,0.000055988537,0.00051275257,0.00006701938,0.000010813453,0.00011443613,0.025335597,0.9703492,0.00007835868,0.00097274437,0.0023557954],"study_design_scores_gemma":[0.0008761592,0.00014006192,0.00052240374,0.00019766744,0.000023132337,0.000018128685,0.00001608138,0.000028936462,0.9867439,0.00094461284,0.009736251,0.0007526441],"about_ca_topic_score_codex":0.000004027907,"about_ca_topic_score_gemma":0.000001967072,"teacher_disagreement_score":0.02530666,"about_ca_system_score_codex":0.00019261928,"about_ca_system_score_gemma":0.00002343471,"threshold_uncertainty_score":0.9999396},"labels":[],"label_agreement":null},{"id":"W2923938903","doi":"10.1002/adma.201807577","title":"Fused Benzothiadiazole: A Building Block for n‐Type Organic Acceptor to Achieve High‐Performance Organic Solar Cells","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":361,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"Sentinelle Nord, Université Laval; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China; Canadian Institute for Advanced Research","keywords":"Organic solar cell; Materials science; Acceptor; Electron acceptor; Absorption (acoustics); Molar absorptivity; Energy conversion efficiency; Band gap; Organic semiconductor; Optoelectronics; Fullerene; Photochemistry; Polymer; Optics; Organic chemistry; Chemistry","score_opus":0.0055397571572038855,"score_gpt":0.21246077860178336,"score_spread":0.20692102144457947,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2923938903","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942544,0.00010477388,0.0005897419,0.000044130924,0.0033010251,0.0011391747,0.00010058572,0.00039015885,0.00007597091],"genre_scores_gemma":[0.99466044,0.0003494879,0.0038131573,0.00022157723,0.00027825503,0.000058803947,0.000032629643,0.00022216346,0.0003634941],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998211,0.000017378257,0.00042734834,0.00039273367,0.00020123896,0.0007502938],"domain_scores_gemma":[0.99904996,0.00007600907,0.00008190025,0.0005098486,0.0001323141,0.00014996807],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00026319083,0.00035800503,0.0004849701,0.00010894833,0.000095888616,0.00009839929,0.0003920659,0.00017210135,0.0013927347],"category_scores_gemma":[0.000041130184,0.0003772819,0.000042332245,0.00038802213,0.000009554038,0.0002645723,0.000088956476,0.00014806546,0.0005446286],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010725097,0.000016478505,0.000010657186,0.00022868566,0.000047353078,6.2253883e-7,0.000083536914,0.0031269977,0.9956005,0.00006185045,0.00039695116,0.00031908788],"study_design_scores_gemma":[0.00080892106,0.00046770895,0.00005493746,0.000047090914,0.000029625577,0.000003761107,0.000011381689,0.0001850398,0.97694665,0.00014851395,0.02081035,0.00048599532],"about_ca_topic_score_codex":0.000004350541,"about_ca_topic_score_gemma":0.000010447813,"teacher_disagreement_score":0.0204134,"about_ca_system_score_codex":0.000247316,"about_ca_system_score_gemma":0.00008422001,"threshold_uncertainty_score":0.9998679},"labels":[],"label_agreement":null},{"id":"W2930438245","doi":"10.1002/adma.201900599","title":"Unconventional Nanofabrication for Supramolecular Electronics","year":2019,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Supramolecular Self-Assembly in Materials","field":"Materials Science","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique; Ministry of Education and Child Care","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Government of Jiangsu Province; National Natural Science Foundation of China; Centre International de Recherche aux Frontières de la Chimie; Agence Nationale de la Recherche; National Science Foundation","keywords":"Nanolithography; Materials science; Nanotechnology; Supramolecular chemistry; Electronics; Molecular electronics; Fabrication; Crystallography; Molecule; Organic chemistry; Crystal structure; Chemistry; Physical chemistry","score_opus":0.038730870983822344,"score_gpt":0.3546474929141247,"score_spread":0.31591662193030234,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2930438245","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0007171778,0.98073995,0.0031905116,0.000019090681,0.008418975,0.005036819,0.0014060335,0.00033970474,0.00013173954],"genre_scores_gemma":[0.00006221582,0.9783542,0.014372005,0.0001003059,0.0005260052,0.0030014084,0.0025098228,0.00035789545,0.00071614265],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9941569,0.0006617835,0.0018459972,0.0014604033,0.0007560176,0.0011189142],"domain_scores_gemma":[0.9958389,0.00047947594,0.0016403749,0.0014459911,0.0004561617,0.00013909795],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0016994426,0.0009992495,0.003187297,0.00026586532,0.00019155636,0.00047341097,0.0011890928,0.0006862226,0.0016180018],"category_scores_gemma":[0.0006193566,0.0009234017,0.0006906405,0.00028754235,0.00008304923,0.0004164943,0.0002595956,0.00014294974,0.003000894],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007744629,0.00010582882,3.7701014e-8,0.024312727,0.00015001789,0.00000932774,0.0000125932065,0.000013915175,0.891334,0.007774159,0.0013204309,0.07488953],"study_design_scores_gemma":[0.00044959856,0.00014960373,8.583263e-8,0.0022162197,0.00074016216,0.00004826049,0.0000034367597,5.5763434e-7,0.24667566,0.0013586212,0.74759996,0.00075783837],"about_ca_topic_score_codex":0.000005783597,"about_ca_topic_score_gemma":0.0000015502588,"teacher_disagreement_score":0.74627954,"about_ca_system_score_codex":0.00069944694,"about_ca_system_score_gemma":0.001033298,"threshold_uncertainty_score":0.99932164},"labels":[],"label_agreement":null},{"id":"W2935754317","doi":"10.1002/adma.201900569","title":"Dynamics of Antimonene–Graphene Van Der Waals Growth","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Lawrence Berkeley National Laboratory; Basic Energy Sciences; Natural Sciences and Engineering Research Council of Canada; Office of Science; Université de Montréal; Ministère de l'Économie, de la Science et de l'Innovation - Québec; Compute Canada; U.S. Department of Energy","keywords":"Nucleation; van der Waals force; Heterojunction; Materials science; Graphene; Nanotechnology; Chemical physics; Nanoscopic scale; Epitaxy; Atomic units; Optoelectronics; Physics; Layer (electronics); Molecule","score_opus":0.005661719027235539,"score_gpt":0.23904114550000483,"score_spread":0.2333794264727693,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2935754317","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99443495,0.000060943938,0.00087115244,0.00021401938,0.001004423,0.00057164923,0.00048432584,0.00013307526,0.0022254682],"genre_scores_gemma":[0.9894951,0.000101466314,0.009693818,0.00010649399,0.00007189718,0.00008005988,0.00008335418,0.00004551445,0.00032231226],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99813235,0.00007754224,0.0006506661,0.00044196707,0.0003079071,0.0003895397],"domain_scores_gemma":[0.99861187,0.00006784397,0.00038350356,0.0006167981,0.00023888475,0.00008112511],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00049581856,0.00023656935,0.0005726661,0.00007904356,0.00007425534,0.000075513664,0.00040123047,0.00010022948,0.0051828586],"category_scores_gemma":[0.000060051414,0.00020854309,0.000065896354,0.0001699824,0.00010001193,0.00034565202,0.00014468443,0.000032583393,0.0010120766],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005432904,0.00006280063,0.00015211936,0.00013810255,0.000008622335,9.131969e-7,0.000039186983,0.000064500964,0.95949936,0.03976918,0.00006213071,0.0001487393],"study_design_scores_gemma":[0.00047034954,0.00006858567,0.0009627601,0.0000586061,0.000022772967,0.000004414949,0.000036243247,0.000008978588,0.9749824,0.02262263,0.00051491795,0.0002473646],"about_ca_topic_score_codex":0.00009683961,"about_ca_topic_score_gemma":0.000010345647,"teacher_disagreement_score":0.017146548,"about_ca_system_score_codex":0.000045564306,"about_ca_system_score_gemma":0.000041589225,"threshold_uncertainty_score":0.99976575},"labels":[],"label_agreement":null},{"id":"W2937796195","doi":"10.1002/adma.201808186","title":"Pressure‐Responsive Hierarchical Chiral Photonic Aerogels","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Aerogels and thermal insulation","field":"Chemistry","cited_by":96,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"FPInnovations; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Photonics; Nanotechnology; Optoelectronics","score_opus":0.006785202885498918,"score_gpt":0.2378991735790851,"score_spread":0.2311139706935862,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2937796195","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9812427,0.00016072083,0.000014024459,0.000036038375,0.00036059957,0.00016756463,0.00010437945,0.00013384968,0.017780118],"genre_scores_gemma":[0.99204046,0.000024053572,0.00051046343,0.000111932575,0.00013647425,0.00003959857,0.000059662023,0.00003953851,0.0070378417],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99884814,0.000033428303,0.0002794518,0.00031438167,0.00022063908,0.0003039591],"domain_scores_gemma":[0.9992926,0.00006289665,0.00013325218,0.00037840105,0.00006211595,0.00007073683],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000121611236,0.00017955372,0.00027953673,0.000021737456,0.00005537988,0.000045471428,0.00017376764,0.00012654216,0.009602358],"category_scores_gemma":[0.00005656828,0.0001629519,0.00005676297,0.000044961645,0.000038376205,0.00021326714,0.0000840203,0.000096558,0.0006562459],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038259866,0.00003044141,0.00006535158,0.00007919961,0.000034752964,0.0000066934294,0.00007175332,0.0001871893,0.99445057,0.0035926371,0.000011645437,0.0010871534],"study_design_scores_gemma":[0.00078750146,0.000032443877,0.0003919372,0.00004941329,0.000019062103,0.000012742201,0.000020770416,0.000045352936,0.97387147,0.003101975,0.02145907,0.00020827525],"about_ca_topic_score_codex":0.00000810988,"about_ca_topic_score_gemma":8.297488e-7,"teacher_disagreement_score":0.021447424,"about_ca_system_score_codex":0.000031563275,"about_ca_system_score_gemma":0.00003421414,"threshold_uncertainty_score":0.991303},"labels":[],"label_agreement":null},{"id":"W2938743593","doi":"10.1002/adma.201900388","title":"Single‐Stimulus‐Induced Modulation of Multiple Optical Properties","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photonic Crystals and Applications","field":"Physics and Astronomy","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Project 211; Natural Sciences and Engineering Research Council of Canada; Ministero dello Sviluppo Economico; China Postdoctoral Science Foundation; Higher Education Discipline Innovation Project; Natural Science Foundation of Jiangsu Province; Ontario Ministry of Research, Innovation and Science; National Natural Science Foundation of China","keywords":"Materials science; Nanorod; Birefringence; Optoelectronics; Transmittance; Camouflage; Photonics; Photonic metamaterial; Nanotechnology; Optics; Computer science","score_opus":0.018673572146497255,"score_gpt":0.2444657182834604,"score_spread":0.22579214613696313,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2938743593","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99597985,0.0000052560536,0.0006618906,0.000030750314,0.00011915234,0.00036068048,0.000041778992,0.00002160795,0.0027790354],"genre_scores_gemma":[0.9985555,4.1442067e-7,0.0011378413,0.0000061760306,0.000050334675,0.000054433054,0.0000238544,0.000012759816,0.00015872685],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9994079,0.000010602902,0.00021521747,0.00014663803,0.00009435346,0.00012532817],"domain_scores_gemma":[0.99957687,0.000023991111,0.00009732475,0.00021010057,0.00006515393,0.000026560434],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060118567,0.00008294431,0.00017297613,0.000015835894,0.000027357208,0.000017360504,0.00006639932,0.000020550875,0.0004517179],"category_scores_gemma":[0.000008500164,0.000070821035,0.000030438301,0.00004397318,0.000017852417,0.00012061969,0.000035128684,0.000022766078,0.00005326189],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023709246,0.0000800823,0.00023155048,0.000015823378,0.000008912137,2.8594151e-8,0.000041823663,0.00055828015,0.99119425,0.004907899,0.0000033086649,0.0029343166],"study_design_scores_gemma":[0.00039362995,0.000039826205,0.0015498233,0.00002651567,0.0000056311324,1.2861086e-7,0.00007197763,0.00029995485,0.9950023,0.0020217192,0.0004983579,0.00009009314],"about_ca_topic_score_codex":0.000038112856,"about_ca_topic_score_gemma":7.379732e-7,"teacher_disagreement_score":0.0038080767,"about_ca_system_score_codex":0.000013721122,"about_ca_system_score_gemma":0.000017641414,"threshold_uncertainty_score":0.49459943},"labels":[],"label_agreement":null},{"id":"W2939405677","doi":"10.1002/adma.201901261","title":"Graphitic Carbon Nitride (g‐C<sub>3</sub>N<sub>4</sub>)‐Derived N‐Rich Graphene with Tuneable Interlayer Distance as a High‐Rate Anode for Sodium‐Ion Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":470,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Australian Research Council; National Natural Science Foundation of China","keywords":"Materials science; Graphene; Anode; Graphitic carbon nitride; Carbon nitride; Nitride; Ion; Carbon fibers; Sodium; Chemical engineering; Nanotechnology; Composite material; Layer (electronics); Electrode; Physical chemistry; Composite number; Metallurgy; Organic chemistry; Catalysis","score_opus":0.005557202033615178,"score_gpt":0.20274039597800583,"score_spread":0.19718319394439066,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2939405677","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848897,0.00019170836,0.006454018,0.000076981276,0.0045572906,0.0023325093,0.00051532197,0.00084374554,0.00013875746],"genre_scores_gemma":[0.9941108,0.00045321244,0.0026025847,0.0003369672,0.00029627298,0.0014476078,0.00030081967,0.0004099739,0.000041750536],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957577,0.00015874786,0.0011821358,0.0010639356,0.00049482164,0.0013426617],"domain_scores_gemma":[0.9977237,0.00023605503,0.0004438712,0.0011173559,0.00028693437,0.0001920679],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004942446,0.0010351774,0.00138046,0.0003219285,0.00018409036,0.00027665318,0.00051288505,0.00023802694,0.00009923264],"category_scores_gemma":[0.00010178813,0.000996959,0.00010386064,0.00042114404,0.00018973793,0.001113411,0.00015720903,0.00017664266,0.00015982744],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001361963,0.00006266458,0.00010912598,0.00096073386,0.00019172758,0.000024649258,0.00017251863,0.005312646,0.99083376,0.00037454974,0.00009509401,0.0005005506],"study_design_scores_gemma":[0.0028399543,0.00046178186,0.000547777,0.0005866787,0.00012493925,0.000024725929,0.000114682036,0.000050476603,0.9869033,0.0066559324,0.0004418442,0.0012479039],"about_ca_topic_score_codex":0.000017537575,"about_ca_topic_score_gemma":0.0000387895,"teacher_disagreement_score":0.009221143,"about_ca_system_score_codex":0.00028537016,"about_ca_system_score_gemma":0.0000517377,"threshold_uncertainty_score":0.9992481},"labels":[],"label_agreement":null},{"id":"W2940606805","doi":"10.1002/adma.201900067","title":"Conjugated Polyelectrolytes as Multifunctional Passivating and Hole‐Transporting Layers for Efficient Perovskite Light‐Emitting Diodes","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":63,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Research Foundation of Korea","keywords":"Materials science; Polyelectrolyte; Light-emitting diode; Perovskite (structure); Diode; Conjugated system; Optoelectronics; Nanotechnology; Passivation; OLED; Chemical engineering; Polymer; Layer (electronics); Composite material","score_opus":0.004444844855231432,"score_gpt":0.21456319326460416,"score_spread":0.2101183484093727,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2940606805","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99605894,0.0001781237,0.0018263495,0.00009661603,0.00044988957,0.00063575694,0.00014230078,0.0003258787,0.00028612904],"genre_scores_gemma":[0.99563205,0.000033115204,0.0036308349,0.00007195881,0.00015299968,0.00024119958,0.000105197236,0.00006491326,0.00006775852],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986841,0.000013497564,0.00045962367,0.0003156122,0.00013426783,0.00039288867],"domain_scores_gemma":[0.9994403,0.000117955904,0.000121120895,0.00017199901,0.000078466575,0.00007017059],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025537692,0.00023097773,0.0003269553,0.000056027184,0.0001576041,0.00011350008,0.0000882506,0.00008063035,0.0001472786],"category_scores_gemma":[0.000074791016,0.00022310897,0.000043272707,0.00008356742,0.000023271756,0.00013776183,0.000021295957,0.00005548524,0.000034950383],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000422966,0.000011182885,0.000092105816,0.00017267915,0.000026222417,4.6382954e-7,0.00012842762,0.022266563,0.97529775,0.0007948748,0.000011484891,0.0011559395],"study_design_scores_gemma":[0.00083668204,0.000052156298,0.0009864063,0.00010686719,0.000021698545,0.0000049172418,0.0000963464,0.0042225737,0.9901123,0.00020582312,0.0030513725,0.00030285536],"about_ca_topic_score_codex":0.000011734971,"about_ca_topic_score_gemma":0.0000018793377,"teacher_disagreement_score":0.01804399,"about_ca_system_score_codex":0.000046811845,"about_ca_system_score_gemma":0.000014470405,"threshold_uncertainty_score":0.90981203},"labels":[],"label_agreement":null},{"id":"W2941507793","doi":"10.1002/adma.201808256","title":"Toward Design of Novel Materials for Organic Electronics","year":2019,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":167,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Agence Nationale de la Recherche; European Commission; Baden-Württemberg Stiftung","keywords":"Materials science; Nanotechnology; Organic electronics; Electronics; Organic solar cell; Transistor; Photovoltaics; Identification (biology); Thin-film transistor; Computer science; Biochemical engineering; Photovoltaic system; Electrical engineering; Polymer; Engineering","score_opus":0.08101315956370493,"score_gpt":0.3573631223551741,"score_spread":0.2763499627914692,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2941507793","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00081173587,0.8992343,0.07984744,0.000020864376,0.008899318,0.0074946545,0.0032611606,0.00037362473,0.000056909914],"genre_scores_gemma":[0.00016349251,0.9008935,0.09626187,0.000049399794,0.0004822209,0.0010646024,0.0002841851,0.00036832155,0.00043239057],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9922768,0.00078005943,0.0028161781,0.0016242624,0.001095374,0.0014073618],"domain_scores_gemma":[0.99305135,0.001165084,0.0033754106,0.0015866098,0.00066874066,0.00015283069],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.006232801,0.0012193426,0.0055287657,0.00032715235,0.00016660371,0.0003814181,0.0023310604,0.0006772912,0.004269263],"category_scores_gemma":[0.0025270567,0.001008005,0.00034938325,0.0004114855,0.00024447555,0.0004987801,0.0005377221,0.0001914321,0.0007730817],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012780078,0.00009442671,1.0777089e-8,0.031871498,0.000044768978,0.000002040919,0.000045493416,0.0003026911,0.9562774,0.001109066,0.00018155969,0.009943249],"study_design_scores_gemma":[0.00076294155,0.0004519903,9.578453e-8,0.0054000635,0.0005756988,0.00006422604,0.000006986097,0.000009180719,0.62202644,0.00033111844,0.36939064,0.0009806405],"about_ca_topic_score_codex":0.000016462382,"about_ca_topic_score_gemma":0.0000010316066,"teacher_disagreement_score":0.36920908,"about_ca_system_score_codex":0.00053123396,"about_ca_system_score_gemma":0.0015823413,"threshold_uncertainty_score":0.99923706},"labels":[],"label_agreement":null},{"id":"W2944657003","doi":"10.1002/adma.201901220","title":"Promoting the Transformation of Li<sub>2</sub>S<sub>2</sub> to Li<sub>2</sub>S: Significantly Increasing Utilization of Active Materials for High‐Sulfur‐Loading Li–S Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":376,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); Western University","funders":"Youth Innovation Promotion Association; Dalian Institute of Chemical Physics; Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Liaoning Province; Canada Foundation for Innovation; Western University; National Natural Science Foundation of China; Youth Innovation Promotion Association of the Chinese Academy of Sciences; Canada Excellence Research Chairs, Government of Canada","keywords":"Polysulfide; Sulfur; Cobalt sulfide; Materials science; Sulfide; Electrochemistry; Catalysis; Amorphous solid; Chemical engineering; Lithium–sulfur battery; Electrode; Organic chemistry; Metallurgy; Chemistry; Physical chemistry; Electrolyte","score_opus":0.011186373954396077,"score_gpt":0.22544087034099236,"score_spread":0.21425449638659627,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2944657003","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98151267,0.000087316956,0.010830796,0.00014984384,0.0019107457,0.0034574836,0.0012783585,0.00074007694,0.000032698175],"genre_scores_gemma":[0.9964816,0.0005682902,0.0014638116,0.00006664671,0.00021182062,0.00068694685,0.0002861923,0.00023319856,0.000001482721],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9955881,0.000233191,0.0019318364,0.0007146381,0.0005797144,0.00095250143],"domain_scores_gemma":[0.99715954,0.0004608824,0.0009474313,0.0008001394,0.000521268,0.00011071355],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001297958,0.0008076329,0.0014806986,0.00040577506,0.00025240995,0.0002140808,0.0005757269,0.00040131493,0.00003677872],"category_scores_gemma":[0.0006185008,0.00072269933,0.00014656155,0.00050691975,0.00018627265,0.0016620798,0.00018407707,0.0001635173,0.000049761795],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007790473,0.000057489793,0.000007302893,0.0020467916,0.00012653405,0.0000020594157,0.0016744185,0.0032036162,0.9690734,0.00054829096,0.000026573776,0.022454472],"study_design_scores_gemma":[0.0011571548,0.00039550825,0.00045280193,0.0011234251,0.00011967629,0.00001470237,0.00079011434,0.00011159419,0.99296296,0.002011142,0.00010280532,0.0007581124],"about_ca_topic_score_codex":0.000016915285,"about_ca_topic_score_gemma":0.0000145172025,"teacher_disagreement_score":0.02388956,"about_ca_system_score_codex":0.0002763359,"about_ca_system_score_gemma":0.00006947309,"threshold_uncertainty_score":0.9995224},"labels":[],"label_agreement":null},{"id":"W2944826525","doi":"10.1002/adma.201807166","title":"Electrochemical CO<sub>2</sub> Reduction into Chemical Feedstocks: From Mechanistic Electrocatalysis Models to System Design","year":2019,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":1297,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of New Brunswick; University of Calgary","funders":"Fonds de recherche du Québec – Nature et technologies; Government of Ontario; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canadian Institute for Advanced Research","keywords":"Electrocatalyst; Materials science; Electrochemistry; Reduction (mathematics); Nanotechnology; Chemical reduction; Electrode; Physical chemistry; Chemistry","score_opus":0.02787030261921618,"score_gpt":0.2829404225536025,"score_spread":0.25507011993438633,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2944826525","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0007972174,0.78507626,0.20643482,0.000018509383,0.001504821,0.0039212867,0.0002136153,0.0017318936,0.00030158664],"genre_scores_gemma":[0.011665339,0.96565676,0.013539921,0.000028671071,0.0012226212,0.0035974414,0.0037317707,0.00044454515,0.00011290725],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9950221,0.0003255667,0.0015810804,0.0016062278,0.00063869904,0.0008263015],"domain_scores_gemma":[0.9971279,0.0001597063,0.0008048009,0.0013747626,0.00024494712,0.00028792082],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004567348,0.0010718332,0.0034248363,0.0003958664,0.00012682387,0.0001610736,0.00076927093,0.0009096562,0.00008906112],"category_scores_gemma":[0.00011565367,0.0010267795,0.00057162886,0.0006689087,0.000043976466,0.0002904643,0.00025776192,0.00037851982,0.0008423086],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012078242,0.000035647936,1.6903164e-10,0.003159168,0.00024483365,0.0000040081027,0.000028744007,0.000037934868,0.7942887,0.0017777198,0.00028077647,0.20002171],"study_design_scores_gemma":[0.00015358417,0.000115246,9.63834e-10,0.0045073866,0.001431329,0.00014238976,0.00002594165,0.000014080033,0.9297034,0.004801733,0.058130093,0.0009747861],"about_ca_topic_score_codex":0.00015691889,"about_ca_topic_score_gemma":0.0000023870755,"teacher_disagreement_score":0.19904692,"about_ca_system_score_codex":0.0022792541,"about_ca_system_score_gemma":0.00033351543,"threshold_uncertainty_score":0.9999356},"labels":[],"label_agreement":null},{"id":"W2947535282","doi":"10.1002/adma.201805886","title":"Tuning Solute‐Redistribution Dynamics for Scalable Fabrication of Colloidal Quantum‐Dot Optoelectronics","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Ministry of Science and ICT, South Korea; National Research Foundation of Korea; Korea Institute of Science and Technology; National Research Foundation","keywords":"Materials science; Fabrication; Lead sulfide; Nanotechnology; Quantum dot; Solar cell; Indium tin oxide; Deposition (geology); Polyethylene terephthalate; Nanoparticle; Optoelectronics; Thin film; Composite material","score_opus":0.011738903822422191,"score_gpt":0.2466595703072343,"score_spread":0.2349206664848121,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2947535282","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9833567,0.00023729473,0.013645985,0.00009178144,0.0011308887,0.000691063,0.0005470188,0.00007871833,0.00022054168],"genre_scores_gemma":[0.9953258,0.000055541375,0.0040033646,0.000021137324,0.00007221796,0.0001081055,0.0001558365,0.00003018012,0.00022779139],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984059,0.00007832004,0.0005199259,0.00032983138,0.0002510108,0.0004150345],"domain_scores_gemma":[0.9987416,0.00014134028,0.00038511376,0.00033544868,0.00035255018,0.0000439476],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00089015916,0.00017374654,0.00042673442,0.00004997302,0.0001223148,0.00007496781,0.00024831327,0.0000960258,0.0003894507],"category_scores_gemma":[0.00030337487,0.00015437801,0.000058428395,0.0001023285,0.00006468869,0.00039863648,0.00006197643,0.00003534173,0.000089459245],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030471658,0.00003933817,0.000035317236,0.00017395559,0.000007043966,9.0777334e-8,0.000041612304,0.00029660464,0.971107,0.027195087,0.00010354106,0.0006956646],"study_design_scores_gemma":[0.00050397374,0.00030597256,0.00010790213,0.00008514595,0.000021325372,0.0000020330497,0.0000951763,0.0029150974,0.9896391,0.0041947016,0.0019275898,0.00020196076],"about_ca_topic_score_codex":0.000040055224,"about_ca_topic_score_gemma":0.000009293071,"teacher_disagreement_score":0.023000384,"about_ca_system_score_codex":0.00020680309,"about_ca_system_score_gemma":0.000110804685,"threshold_uncertainty_score":0.6295352},"labels":[],"label_agreement":null},{"id":"W2949627837","doi":"10.1002/adma.201901051","title":"Glucose‐Responsive Composite Microneedle Patch for Hypoglycemia‐Triggered Delivery of Native Glucagon","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Transdermal Drug Delivery","field":"Pharmacology, Toxicology and Pharmaceutics","cited_by":159,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Juvenile Diabetes Research Foundation Canada","keywords":"Hypoglycemia; Glucagon; Insulin; Transdermal; Phenylboronic acid; Diabetes mellitus; Medicine; Internal medicine; Endocrinology; Materials science; Pharmacology; Chemistry; Biochemistry; Catalysis","score_opus":0.0488029815669964,"score_gpt":0.3931102932876078,"score_spread":0.3443073117206114,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2949627837","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9892482,0.001298776,0.0010513366,0.00009713822,0.0033471745,0.0021801644,0.0019540575,0.00008978422,0.00073337863],"genre_scores_gemma":[0.9903538,0.0010534904,0.0060330774,0.00093547074,0.00013812045,0.00022832744,0.00023181833,0.00007013101,0.00095571566],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974286,0.00037934462,0.0007822773,0.0005404703,0.00024682915,0.00062245684],"domain_scores_gemma":[0.997288,0.0011984188,0.0004815793,0.00034974297,0.0005483977,0.00013389355],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006025418,0.00038521292,0.0007566684,0.0001552232,0.00014903909,0.00001118738,0.00040291203,0.00032333125,0.0015291934],"category_scores_gemma":[0.00009877085,0.00039604914,0.00015087884,0.00017105484,0.00021554044,0.00034973634,0.00012086017,0.00025789483,0.0002205772],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.010805337,0.00027763782,0.00020945593,0.000343245,0.00028296854,0.000010211437,0.00053646753,0.0017545278,0.9789877,0.00039652758,0.00036729436,0.006028656],"study_design_scores_gemma":[0.0060906066,0.00043930838,0.00019340047,0.000074139316,0.00014685222,0.000008958603,0.00026447157,0.000104347586,0.9442581,0.00086153933,0.04716228,0.00039597278],"about_ca_topic_score_codex":0.000026860533,"about_ca_topic_score_gemma":0.0000049118557,"teacher_disagreement_score":0.046794984,"about_ca_system_score_codex":0.00017723763,"about_ca_system_score_gemma":0.0001244643,"threshold_uncertainty_score":0.99984914},"labels":[],"label_agreement":null},{"id":"W2950602312","doi":"10.1002/adma.201901745","title":"Nanostructured Back Reflectors for Efficient Colloidal Quantum‐Dot Infrared Optoelectronics","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"European Commission; Natural Sciences and Engineering Research Council of Canada; National Research Foundation of Korea; European Research Council; Ministerio de Economía y Competitividad; National Research Foundation","keywords":"Materials science; Optoelectronics; Quantum dot; Energy conversion efficiency; Band gap; Photonic crystal; Photonics; Infrared; Nanotechnology; Semiconductor; Electrode; Absorption (acoustics); Quantum efficiency; Nanoimprint lithography; Solar cell; Fabrication; Optics; Composite material","score_opus":0.012750429672801086,"score_gpt":0.2549468517126519,"score_spread":0.2421964220398508,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2950602312","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9927765,0.00043189453,0.00013045433,0.00008810354,0.003928105,0.0013444668,0.00028816613,0.00015041909,0.00086188136],"genre_scores_gemma":[0.9919136,0.000052146934,0.005423893,0.00018679268,0.0001471248,0.00015974669,0.000038037357,0.00007727613,0.002001357],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974464,0.00013760582,0.0006238932,0.0006292392,0.00038144496,0.00078142644],"domain_scores_gemma":[0.99862033,0.0001702521,0.00030854682,0.00058405026,0.00021338357,0.00010344596],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006834632,0.00035412586,0.00064573775,0.000079789155,0.00018620759,0.00021640399,0.00044466753,0.00015598662,0.004215644],"category_scores_gemma":[0.00026894812,0.000279254,0.00010519295,0.00013336069,0.000085610794,0.0002321425,0.000103273975,0.000062439525,0.0011359926],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008366119,0.000037058773,0.000009235841,0.00015271462,0.000012565648,6.826452e-7,0.00015372493,0.000729101,0.99350584,0.003594102,0.00076297927,0.00020536376],"study_design_scores_gemma":[0.001038145,0.00046166102,0.00007154482,0.000076337514,0.000018682042,0.0000062820677,0.00006712965,0.00008333158,0.95598185,0.0022040245,0.03957767,0.00041334302],"about_ca_topic_score_codex":0.000017932476,"about_ca_topic_score_gemma":0.000005014018,"teacher_disagreement_score":0.038814694,"about_ca_system_score_codex":0.00016059492,"about_ca_system_score_gemma":0.00016225378,"threshold_uncertainty_score":0.99996597},"labels":[],"label_agreement":null},{"id":"W2955202529","doi":"10.1002/adma.201970188","title":"Organic Semiconductors: Toward Design of Novel Materials for Organic Electronics (Adv. Mater. 26/2019)","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Organic electronics; Organic semiconductor; Electronics; Nanotechnology; Complement (music); Semiconductor; Identification (biology); Engineering physics; Optoelectronics; Engineering; Transistor; Electrical engineering","score_opus":0.02777680334037253,"score_gpt":0.27739653638282763,"score_spread":0.2496197330424551,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2955202529","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9851582,0.00022802754,0.009652125,0.00016183627,0.002071055,0.0018166392,0.0006162579,0.00027284172,0.00002300643],"genre_scores_gemma":[0.981094,0.00010596317,0.017273769,0.00013128597,0.0002028663,0.00024489613,0.00007088957,0.0001622671,0.0007140359],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99711704,0.000089622285,0.00095387717,0.00071996695,0.00037792683,0.00074157375],"domain_scores_gemma":[0.9977886,0.00022246843,0.0006883728,0.0008151276,0.00038427548,0.00010117192],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011365878,0.00039738906,0.0008355943,0.000100762925,0.00012076311,0.00014403183,0.00063540204,0.00018320097,0.00509499],"category_scores_gemma":[0.00024469593,0.00036880944,0.00007246137,0.00022266143,0.00009250067,0.00042928976,0.00016855253,0.00006242218,0.0003479935],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001685092,0.00010796561,0.000002456342,0.00021327834,0.000023197568,2.8945092e-7,0.00017947303,0.000051636445,0.99776953,0.0010802789,0.00033395103,0.0000694516],"study_design_scores_gemma":[0.0012779976,0.00023774804,0.000012111654,0.00008620737,0.000057447676,0.000017390194,0.00012764598,0.0000035209914,0.9948359,0.0010732337,0.0018383389,0.00043246147],"about_ca_topic_score_codex":0.000032395303,"about_ca_topic_score_gemma":0.0000031056907,"teacher_disagreement_score":0.0076216445,"about_ca_system_score_codex":0.00017551833,"about_ca_system_score_gemma":0.00029733818,"threshold_uncertainty_score":0.9998764},"labels":[],"label_agreement":null},{"id":"W2961058932","doi":"10.1002/adma.201903452","title":"Biomimetic Locomotion of Electrically Powered “Janus” Soft Robots Using a Liquid Crystal Polymer","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":295,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Fonds de recherche du Québec – Nature et technologies; Natural Sciences and Engineering Research Council of Canada; China Scholarship Council","keywords":"Materials science; Crawling; Janus; Robot; Soft robotics; Resistive touchscreen; Morphing; Actuator; Liquid crystal; Robot locomotion; Nanotechnology; Mechanical engineering; Computer science; Optoelectronics; Mobile robot; Artificial intelligence; Engineering; Computer vision; Robot control","score_opus":0.0060535737300888084,"score_gpt":0.21292378102446255,"score_spread":0.20687020729437375,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2961058932","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9489718,0.0004685236,0.04792787,0.0000068456,0.0017142213,0.00044799293,0.000061560626,0.00023475978,0.00016641672],"genre_scores_gemma":[0.98849624,0.00012479108,0.0110688,0.000024012817,0.00008066109,0.000015876161,0.000024995024,0.00008962991,0.00007500611],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99852204,0.00003919038,0.00054315425,0.00025982608,0.00020963863,0.00042611774],"domain_scores_gemma":[0.99930334,0.000031316704,0.00015965379,0.00033728196,0.00009144892,0.000076947406],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00018052687,0.00026413612,0.00053014467,0.00012181637,0.000029697068,0.000026286074,0.00015569608,0.00013166157,0.0005042434],"category_scores_gemma":[0.000035012505,0.00026581463,0.00006346347,0.00018187467,0.000019459436,0.0002948554,0.000053720072,0.000053890806,0.00005854313],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019411475,0.000027645223,9.37591e-7,0.00020165558,0.000026030375,0.0000026939256,0.000029023378,0.01471237,0.9838042,0.0005530877,0.0000048841566,0.00044333457],"study_design_scores_gemma":[0.0006995184,0.0002529892,0.000008403788,0.000103928825,0.000026287737,0.000015062616,0.000014600733,0.0006336132,0.99704826,0.00064596324,0.00025789492,0.00029348893],"about_ca_topic_score_codex":0.000008742175,"about_ca_topic_score_gemma":7.79443e-7,"teacher_disagreement_score":0.039524417,"about_ca_system_score_codex":0.00010066066,"about_ca_system_score_gemma":0.000031107847,"threshold_uncertainty_score":0.9999794},"labels":[],"label_agreement":null},{"id":"W2963901317","doi":"10.1002/adma.201901166","title":"Benchmarking to the Gold Standard: Hyaluronan‐Oxime Hydrogels Recapitulate Xenograft Models with In Vitro Breast Cancer Spheroid Culture","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":84,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Princess Margaret Cancer Centre; University Health Network; Canada Research Chairs; Ontario Institute for Cancer Research; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Matrigel; Breast cancer; Spheroid; In vivo; In vitro; Cancer research; Cancer; Cancer cell; Cell culture; Materials science; Biology; Medicine; Internal medicine; Biochemistry; Biotechnology; Genetics","score_opus":0.006157420412301466,"score_gpt":0.23890021618255894,"score_spread":0.23274279577025747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2963901317","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994443,0.0005273079,0.0013205573,0.00035408884,0.00063209963,0.00091025146,0.00030920512,0.00019802671,0.0013054791],"genre_scores_gemma":[0.990981,0.0002097732,0.007824689,0.00013376003,0.00016053604,0.00019206559,0.00001933161,0.00008249664,0.0003963861],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99784416,0.00006948199,0.00034771155,0.00038993193,0.0006470648,0.0007016581],"domain_scores_gemma":[0.9991406,0.00006242077,0.000051978855,0.0004970104,0.0000952568,0.00015272271],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00062387757,0.00027516985,0.00040356725,0.00008273545,0.00005102887,0.00010934938,0.00044002244,0.0001126616,0.00063873077],"category_scores_gemma":[0.000024473853,0.0001835815,0.000034248947,0.00039904244,0.000049277114,0.00027864758,0.00014860652,0.00024477174,0.00014841501],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003839681,0.000011197226,0.000045097087,0.00013088781,0.000038913488,0.0000111755735,0.0003670351,0.1305264,0.8315011,0.000068978996,0.00031629583,0.036598925],"study_design_scores_gemma":[0.0016016143,0.00020200873,0.0008382747,0.00080215087,0.000018650642,0.000027696331,0.00012777376,0.0053868424,0.95491886,0.0008678904,0.034486145,0.0007220946],"about_ca_topic_score_codex":0.00011648694,"about_ca_topic_score_gemma":0.00006545731,"teacher_disagreement_score":0.12513956,"about_ca_system_score_codex":0.00028296383,"about_ca_system_score_gemma":0.000054737444,"threshold_uncertainty_score":0.7486236},"labels":[],"label_agreement":null},{"id":"W2967241030","doi":"10.1002/adma.201901826","title":"Genetically Programmable Self‐Regenerating Bacterial Hydrogels","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":142,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Division of Materials Research; National Institute of Diabetes and Digestive and Kidney Diseases; National Heart, Lung, and Blood Institute; National Science Foundation; National Institutes of Health; Korea Institute for Advancement of Technology","keywords":"Self-healing hydrogels; Materials science; Nanofiber; Extracellular matrix; Nanotechnology; Tissue engineering; Interconnectivity; Cell biology; Biology; Computer science; Biomedical engineering; Polymer chemistry; Engineering; Artificial intelligence","score_opus":0.006305748203288086,"score_gpt":0.23946293711870675,"score_spread":0.23315718891541867,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2967241030","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993564,0.000113767936,0.00039492783,0.000030941443,0.0016056311,0.00051418913,0.000016390275,0.00075970107,0.0030004526],"genre_scores_gemma":[0.94108355,0.00008032994,0.05804311,0.00002603987,0.0003493292,0.00009727725,0.000027527409,0.00007548836,0.00021735125],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998318,0.000050526614,0.0003567978,0.00027697682,0.0003969497,0.0006007476],"domain_scores_gemma":[0.99930286,0.000078057004,0.000034427667,0.0003651719,0.00007169633,0.00014780059],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00048767455,0.00018686758,0.00027428183,0.000057222653,0.000044142576,0.00014463913,0.00026793047,0.000117939206,0.0019536742],"category_scores_gemma":[0.00013345235,0.00017844599,0.000035074183,0.00013936487,0.00003479354,0.0001495847,0.00011747286,0.000106940766,0.0011735444],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013716092,0.000015874373,0.000036114365,0.0001521408,0.000023895649,0.0000035823368,0.000027225104,0.0014442808,0.9764653,0.00045393803,0.000098647746,0.021265319],"study_design_scores_gemma":[0.00048225277,0.00006939932,0.00015212192,0.000053501975,0.000005345376,0.0000058124865,0.000004719738,0.0008869895,0.9569998,0.00016933969,0.040943194,0.00022755592],"about_ca_topic_score_codex":0.000003903619,"about_ca_topic_score_gemma":0.0000011137818,"teacher_disagreement_score":0.057648182,"about_ca_system_score_codex":0.00008367515,"about_ca_system_score_gemma":0.00003703105,"threshold_uncertainty_score":0.99960417},"labels":[],"label_agreement":null},{"id":"W2967475075","doi":"10.1002/adma.201903852","title":"Bamboo‐Like Nitrogen‐Doped Carbon Nanotube Forests as Durable Metal‐Free Catalysts for Self‐Powered Flexible Li–CO<sub>2</sub> Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":194,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Argonne National Laboratory; Office of Energy Efficiency; Vehicle Technologies Office; University of Chicago; National Natural Science Foundation of China; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Office of Science","keywords":"Materials science; Battery (electricity); Carbon nanotube; Energy storage; Nanotechnology; Catalysis; Electrode; Organic radical battery; Bifunctional; Fiber; Electrochemistry; Chemical engineering; Composite material; Organic chemistry; Chemistry","score_opus":0.0064734077339220495,"score_gpt":0.21736457251415386,"score_spread":0.21089116478023182,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2967475075","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98967874,0.00048085698,0.00030753593,0.0000823051,0.003327862,0.0017620954,0.00052859844,0.0029052445,0.0009267342],"genre_scores_gemma":[0.9939577,0.00043724664,0.0037081437,0.000107088024,0.00016424453,0.0009052315,0.00026553837,0.0002671805,0.00018765296],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969304,0.000044851466,0.0008493547,0.000743406,0.00035027805,0.0010816931],"domain_scores_gemma":[0.9980051,0.0001319815,0.00023647904,0.0013486064,0.00015649242,0.00012137495],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003099982,0.0007351107,0.0011311513,0.0002338911,0.00014943763,0.00018436294,0.00069706945,0.00032887683,0.00011306878],"category_scores_gemma":[0.0001399538,0.0007127915,0.0001524305,0.00022314313,0.00009041783,0.0008472805,0.0002466397,0.00012621323,0.0003071928],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021791422,0.000037787835,0.00008567476,0.0006584771,0.00017861246,0.000014214287,0.00007529389,0.0008572621,0.99613374,0.0004101232,0.00079731055,0.0005335789],"study_design_scores_gemma":[0.0016944775,0.00024442017,0.00009827857,0.000119749166,0.00008253068,0.000036017776,0.000099701574,0.000037134676,0.97801894,0.01097826,0.0077348403,0.00085562555],"about_ca_topic_score_codex":0.00002506341,"about_ca_topic_score_gemma":0.000040323208,"teacher_disagreement_score":0.018114787,"about_ca_system_score_codex":0.00019805304,"about_ca_system_score_gemma":0.00005422946,"threshold_uncertainty_score":0.99953234},"labels":[],"label_agreement":null},{"id":"W2971412015","doi":"10.1002/adma.201970259","title":"Soft Robots: Biomimetic Locomotion of Electrically Powered “Janus” Soft Robots Using a Liquid Crystal Polymer (Adv. Mater. 36/2019)","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"","keywords":"Crawling; Materials science; Robot; Janus; Soft materials; Liquid crystal; Artificial muscle; Polymer; Soft robotics; Nanotechnology; Robot locomotion; Adhesion; Mechanical engineering; Composite material; Computer science; Optoelectronics; Engineering; Mobile robot; Actuator; Anatomy; Artificial intelligence","score_opus":0.0071967245078737516,"score_gpt":0.22467095610225235,"score_spread":0.2174742315943786,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2971412015","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.89876944,0.00092367776,0.09569762,0.00001834653,0.002978919,0.00083781837,0.00018266968,0.00047037433,0.00012114369],"genre_scores_gemma":[0.98182815,0.0002871549,0.017116178,0.00005801331,0.00015953697,0.00003846619,0.00009092617,0.00020924625,0.00021232375],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99715596,0.000084654996,0.0010270093,0.0005189931,0.0003822608,0.0008310887],"domain_scores_gemma":[0.9986385,0.00006161117,0.0003476669,0.0006274401,0.00016733824,0.0001574131],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032141773,0.00054336456,0.0009912149,0.00023093986,0.000067943445,0.00007469004,0.00032413402,0.00027544066,0.000800262],"category_scores_gemma":[0.00006396041,0.00054737815,0.0001263013,0.000300649,0.000043526336,0.0006085084,0.000128717,0.000110885696,0.00015174015],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004974509,0.00006151175,0.0000019637214,0.00040898423,0.000059118265,0.000007662728,0.000051066298,0.04233643,0.9555605,0.00040087855,0.000021099504,0.0005933051],"study_design_scores_gemma":[0.001186358,0.0003777749,0.000019954357,0.00025577226,0.000062197185,0.000039708568,0.000026357362,0.0010372843,0.9951538,0.00087475136,0.00035978146,0.00060625636],"about_ca_topic_score_codex":0.000026288059,"about_ca_topic_score_gemma":0.0000018378344,"teacher_disagreement_score":0.08305872,"about_ca_system_score_codex":0.00020229454,"about_ca_system_score_gemma":0.00006057281,"threshold_uncertainty_score":0.99969774},"labels":[],"label_agreement":null},{"id":"W2971623421","doi":"10.1002/adma.201904029","title":"Superstretchable Dynamic Polymer Networks","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer composites and self-healing","field":"Materials Science","cited_by":115,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Ministry of Science and Technology of the People's Republic of China; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Materials science; Polymer; Polymer science; Nanotechnology; Composite material","score_opus":0.003810004670546731,"score_gpt":0.21950989518752556,"score_spread":0.21569989051697883,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2971623421","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99277014,0.0014572182,0.0010159378,0.00011447331,0.002980757,0.00026865507,0.00004387819,0.0002159816,0.0011329363],"genre_scores_gemma":[0.996144,0.000084072555,0.0017533792,0.00037216957,0.00011120804,0.000024004854,0.000031059142,0.000043226813,0.0014369083],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982837,0.00007054701,0.000363619,0.0004352294,0.00024295549,0.0006039835],"domain_scores_gemma":[0.99917537,0.00006242305,0.00012347328,0.0004840461,0.00004767065,0.00010703604],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0002909784,0.00022161973,0.0003787087,0.00005051649,0.00011029541,0.00013933622,0.00031270305,0.000094972645,0.0050433367],"category_scores_gemma":[0.000011725279,0.0002002289,0.000053970023,0.00010464646,0.000040481627,0.0003841799,0.00012361686,0.000061706625,0.0013655657],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000071322895,0.000020088675,0.00006308819,0.000025647945,0.0000057900456,0.0000043252107,0.000056345034,0.0014833055,0.9971452,0.00067267596,0.00003719965,0.0004150192],"study_design_scores_gemma":[0.00048634992,0.000076681405,0.00012620479,0.000050758863,0.000011677502,0.000012831491,0.00005976402,0.0009299417,0.9967698,0.00020357098,0.0009852425,0.0002872159],"about_ca_topic_score_codex":0.0001034045,"about_ca_topic_score_gemma":0.00000729675,"teacher_disagreement_score":0.0036777712,"about_ca_system_score_codex":0.00007051102,"about_ca_system_score_gemma":0.0000328393,"threshold_uncertainty_score":0.999412},"labels":[],"label_agreement":null},{"id":"W2972197134","doi":"10.1002/adma.201907801","title":"Beyond Ternary OPV: High‐Throughput Experimentation and Self‐Driving Laboratories Optimize Multicomponent Systems","year":2020,"lang":"en","type":"preprint","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research; Vector Institute; University of Toronto","funders":"Departamento Administrativo de Ciencia, Tecnología e Innovación (COLCIENCIAS); Bayerisches Staatsministerium für Umwelt und Verbraucherschutz; Tata Sons; Bayerisches Staatsministerium für Wirtschaft und Medien, Energie und Technologie; Natural Resources Canada; Deutsche Forschungsgemeinschaft","keywords":"Ternary operation; Component (thermodynamics); Bayesian optimization; Throughput; Stability (learning theory); Computer science; Materials science; Nanotechnology; Artificial intelligence; Machine learning; Physics; Operating system","score_opus":0.011325933703194298,"score_gpt":0.2823632016110761,"score_spread":0.2710372679078818,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2972197134","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9743136,0.001038688,0.0050785565,0.00046471882,0.015760295,0.0015657708,0.0005786708,0.0010538897,0.00014579832],"genre_scores_gemma":[0.8131227,0.00035533437,0.18460907,0.00017448892,0.0008507075,0.0005303051,0.00017951732,0.00012769768,0.000050176743],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99417835,0.0008400528,0.0013488986,0.0018692191,0.0010111011,0.00075236516],"domain_scores_gemma":[0.9968498,0.00023326352,0.0012989809,0.0009988872,0.00031667072,0.00030239942],"candidate_categories":["metaepi_narrow","scholarly_communication"],"consensus_categories":[],"category_scores_codex":[0.0013256668,0.0008809169,0.0014228761,0.00012949172,0.00039365783,0.0018709981,0.0010037117,0.00036672034,0.00044394328],"category_scores_gemma":[0.00045930798,0.0008446182,0.000063890584,0.00015104929,0.00028703682,0.000858912,0.0025030668,0.00031908724,0.00020207242],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011148001,0.000079507685,0.000057253248,0.0007185994,0.000028770854,0.000050190185,0.0014920956,0.026356114,0.9690565,0.0018452484,0.00017143987,0.000032820968],"study_design_scores_gemma":[0.0009982283,0.00016794304,0.0008149135,0.00047276204,0.000089966095,0.000030962205,0.000382256,0.002418734,0.9902376,0.0022749172,0.000988888,0.0011228396],"about_ca_topic_score_codex":0.00064616074,"about_ca_topic_score_gemma":0.0000040793934,"teacher_disagreement_score":0.17953052,"about_ca_system_score_codex":0.0003233324,"about_ca_system_score_gemma":0.00020416091,"threshold_uncertainty_score":0.99940044},"labels":[],"label_agreement":null},{"id":"W2973121751","doi":"10.1002/adma.201902364","title":"Depth‐Resolved Modulation of Metal–Oxygen Hybridization and Orbital Polarization across Correlated Oxide Interfaces","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electronic and Structural Properties of Oxides","field":"Materials Science","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan; University of British Columbia","funders":"Brookhaven National Laboratory; Army Research Office; Basic Energy Sciences; Drexel University; Office of Science; Natural Sciences and Engineering Research Council of Canada; U.S. Department of Energy","keywords":"Materials science; Superlattice; Oxide; Electronic structure; Heterojunction; Intercalation (chemistry); Orbital hybridisation; Metal; Atomic orbital; Polarization (electrochemistry); Electron; Condensed matter physics; Optoelectronics; Inorganic chemistry; Physics; Chemistry; Molecular orbital theory; Physical chemistry","score_opus":0.008222980102236667,"score_gpt":0.2409819278103908,"score_spread":0.23275894770815414,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2973121751","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9976438,0.00029571197,0.0010440523,0.000025035648,0.00043331907,0.00036861261,0.000044804892,0.00007729122,0.00006734007],"genre_scores_gemma":[0.99771243,0.000029737204,0.0018840163,0.000019355697,0.00001699179,0.0000078558405,0.00006390069,0.000021923537,0.00024376843],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986955,0.000075530246,0.00045590813,0.00029828836,0.00020902703,0.00026577068],"domain_scores_gemma":[0.99926424,0.000035708257,0.0003052879,0.00019805317,0.00016088758,0.000035843168],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030510355,0.00016348956,0.0003242172,0.000036011163,0.00008213718,0.0000752665,0.00013619459,0.00007844208,0.0002307354],"category_scores_gemma":[0.00013444872,0.0001340449,0.000021958474,0.000086267755,0.00008057487,0.000835567,0.00009389293,0.000041391948,0.00004419004],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002160142,0.0000086955315,0.00042330782,0.00006351889,0.000011567241,3.908678e-7,0.00018114873,0.0015713728,0.9963631,0.0003239219,0.0000026329615,0.0008343047],"study_design_scores_gemma":[0.0005077566,0.00012309571,0.016897026,0.00004856993,0.000013015887,0.000008385896,0.00012406553,0.00037080745,0.9809881,0.00072897796,0.000028321125,0.00016191641],"about_ca_topic_score_codex":0.00013332735,"about_ca_topic_score_gemma":0.000016506929,"teacher_disagreement_score":0.016473718,"about_ca_system_score_codex":0.000048093298,"about_ca_system_score_gemma":0.000023719756,"threshold_uncertainty_score":0.54661924},"labels":[],"label_agreement":null},{"id":"W2979002590","doi":"10.1002/adma.201903559","title":"Efficient and Stable Inverted Perovskite Solar Cells Incorporating Secondary Amines","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":188,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Office of Naval Research; ShanghaiTech University; Science Fund for Creative Research Groups","keywords":"Materials science; Perovskite (structure); Energy conversion efficiency; Photovoltaics; Optoelectronics; Perovskite solar cell; Dopant; Band gap; Methylamine; Dimethylamine; Solar cell; Photovoltaic system; Nanotechnology; Chemical engineering; Doping; Chemistry; Organic chemistry; Electrical engineering","score_opus":0.003995004484540089,"score_gpt":0.18516179893438497,"score_spread":0.18116679444984488,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2979002590","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967164,0.00012569554,0.00058227684,0.000019803862,0.0006738345,0.0003550193,0.00017359907,0.0002675714,0.0010858346],"genre_scores_gemma":[0.9969501,0.000058255977,0.002572517,0.00007653161,0.000069263275,0.000060223814,0.00004466722,0.00004734777,0.000121098456],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991039,0.000019656081,0.0002962369,0.00022958855,0.00010591883,0.00024469235],"domain_scores_gemma":[0.9995315,0.00003076265,0.000063834595,0.00025272812,0.000056116533,0.00006504896],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014358283,0.00018622223,0.00028101474,0.00005516232,0.00006722083,0.00010619582,0.00009634095,0.00006419281,0.0003942165],"category_scores_gemma":[0.000010793557,0.00017958005,0.000017440509,0.00009352185,0.000028636341,0.00012199669,0.00006667442,0.00005150903,0.0001901703],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006895828,0.000009359061,0.00001551042,0.00017499394,0.000009077022,9.154939e-7,0.00006463933,0.010796095,0.9876618,0.00025000397,0.00009783657,0.0009128862],"study_design_scores_gemma":[0.00038547686,0.000021751564,0.0005072022,0.000043767144,0.000008289556,0.0000035266487,0.00005828683,0.0037420967,0.99018425,0.00023248096,0.0045713177,0.00024156318],"about_ca_topic_score_codex":0.000016883723,"about_ca_topic_score_gemma":0.0000036128663,"teacher_disagreement_score":0.0070539988,"about_ca_system_score_codex":0.000033786902,"about_ca_system_score_gemma":0.000010638523,"threshold_uncertainty_score":0.7323062},"labels":[],"label_agreement":null},{"id":"W2980173225","doi":"10.1002/adma.201904304","title":"Mixed Lead Halide Passivation of Quantum Dots","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Molecular Junctions and Nanostructures","field":"Engineering","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Passivation; Materials science; Halide; Quantum dot; Lead (geology); Nanotechnology; Inorganic chemistry","score_opus":0.00681173142335094,"score_gpt":0.20237587112998304,"score_spread":0.19556413970663208,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2980173225","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930724,0.000092094866,0.004359398,0.000010162456,0.0016301115,0.00013558206,0.000022317387,0.000085973756,0.00059195416],"genre_scores_gemma":[0.9982102,0.00003570006,0.0015705272,0.000012054339,0.000029146147,0.000009774823,0.000023237259,0.000019720206,0.00008964232],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9995242,0.000012578459,0.00018265627,0.00008636826,0.00008986259,0.00010434212],"domain_scores_gemma":[0.99971586,0.000012277628,0.000041798605,0.00017854958,0.000036751848,0.000014778856],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000052806492,0.00008118859,0.00015383596,0.000045414963,0.000011853616,0.0000101489795,0.00005235386,0.000043749944,0.00027740226],"category_scores_gemma":[0.000021753423,0.000074776384,0.000022811466,0.000063817715,0.000008911816,0.000084967614,0.000010485855,0.00002199074,0.000055707795],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011313367,0.0000028792936,0.000023313542,0.00007366651,0.000010519746,5.7654745e-7,0.000011801453,0.0049058623,0.990335,0.0028821747,0.00019374494,0.0015491638],"study_design_scores_gemma":[0.0002354769,0.000023121866,0.0018742412,0.000024737541,0.0000054114316,0.0000017686648,0.000012200923,0.00017467886,0.9915284,0.0011797986,0.0048535694,0.00008661244],"about_ca_topic_score_codex":0.0000073797555,"about_ca_topic_score_gemma":0.0000013415465,"teacher_disagreement_score":0.0051377923,"about_ca_system_score_codex":0.000016242413,"about_ca_system_score_gemma":0.0000048495504,"threshold_uncertainty_score":0.30492926},"labels":[],"label_agreement":null},{"id":"W2982042951","doi":"10.1002/adma.201904752","title":"Room‐Temperature‐Formed PEDOT:PSS Hydrogels Enable Injectable, Soft, and Healable Organic Bioelectronics","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":297,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal; Université de Montréal","funders":"National Heart, Lung, and Blood Institute; National Institutes of Health; National Science Foundation","keywords":"PEDOT:PSS; Self-healing hydrogels; Materials science; Biocompatibility; Bioelectronics; Nanotechnology; Polymer chemistry; Biosensor; Layer (electronics)","score_opus":0.004068705368923636,"score_gpt":0.1936661907582282,"score_spread":0.18959748538930454,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2982042951","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941617,0.0008838735,0.000415744,0.00003210614,0.0015435569,0.00040836638,0.00006399595,0.0008346609,0.0016559818],"genre_scores_gemma":[0.9927728,0.00096832647,0.003587193,0.00013869323,0.00019404641,0.00005494461,0.00008286236,0.00017214772,0.0020289735],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978499,0.000049059352,0.00051071576,0.00046482237,0.00022145365,0.000904047],"domain_scores_gemma":[0.99910593,0.00008073229,0.000100653,0.00047062992,0.000083956336,0.0001580735],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028154114,0.00044142685,0.0006878415,0.000107412154,0.00013056988,0.00018869578,0.00019949653,0.0002727549,0.00072853744],"category_scores_gemma":[0.00009337869,0.00042885717,0.000037860715,0.00024374409,0.000034778648,0.0007350972,0.00008098062,0.0001935234,0.00023203954],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005094221,0.000013435025,0.000017720618,0.00028339063,0.000033531967,0.000005277803,0.000060725895,0.017563496,0.98072803,0.0007093621,0.0001628917,0.00037117233],"study_design_scores_gemma":[0.0008391734,0.000119949684,0.000037578146,0.00008795656,0.000019151628,0.000052283085,0.00003971978,0.0001262867,0.9804466,0.0024230552,0.0152762495,0.0005320362],"about_ca_topic_score_codex":0.000025589969,"about_ca_topic_score_gemma":0.000022617649,"teacher_disagreement_score":0.017437208,"about_ca_system_score_codex":0.00015902346,"about_ca_system_score_gemma":0.000052165,"threshold_uncertainty_score":0.9998163},"labels":[],"label_agreement":null},{"id":"W2982134097","doi":"10.1002/adma.201905433","title":"Magneto‐Memristive Switching in a 2D Layer Antiferromagnet","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Army Research Office; Fundamental Research Funds for the Central Universities; Ministry of Science, ICT and Future Planning; Canada First Research Excellence Fund; National Research Foundation of Korea; Air Force Office of Scientific Research; National Key Research and Development Program of China; Renmin University of China; Office of Naval Research; National Natural Science Foundation of China","keywords":"Neuromorphic engineering; Materials science; Condensed matter physics; Hysteresis; Antiferromagnetism; Quantum tunnelling; Memristor; Magnetization; Electric field; Magneto; Magnetoresistive random-access memory; Spin (aerodynamics); Coupling (piping); Field (mathematics); Ferromagnetism; Resistive touchscreen; Optoelectronics; Magnetic field; Nanotechnology; Voltage; Electronic engineering; Random access memory; Electrical engineering; Physics; Computer science","score_opus":0.008898927288042022,"score_gpt":0.23166374577243604,"score_spread":0.222764818484394,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2982134097","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99493724,0.00018617259,0.00059601164,0.000013390215,0.0012407183,0.00031574306,0.000011116876,0.00032181112,0.002377818],"genre_scores_gemma":[0.99758697,0.000049340004,0.0019075918,0.0000740074,0.00008923356,0.000017914068,0.000008248724,0.000048640268,0.0002180566],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99887544,0.000030065614,0.00032688968,0.00026444643,0.0001241296,0.000379042],"domain_scores_gemma":[0.9995743,0.00007506567,0.000048755417,0.00023092923,0.000022851262,0.000048092897],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016869283,0.00020929266,0.0003296353,0.00008628985,0.000031002037,0.00003016869,0.00013822052,0.00006349626,0.00033383653],"category_scores_gemma":[0.000036977457,0.000212051,0.000028295663,0.00014807812,0.0000091854245,0.00037399138,0.000055168704,0.0001344843,0.00027681538],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003765752,0.0000075791236,0.00010629941,0.00009298897,0.000003933942,0.000025588557,0.000121060795,0.034416225,0.9619691,0.0001790643,0.000019013687,0.0030214847],"study_design_scores_gemma":[0.00075429975,0.00007254778,0.0028418847,0.00013739994,0.000004340762,0.0000147366345,0.000078751145,0.00067623437,0.9923396,0.0009505407,0.0017866001,0.00034307322],"about_ca_topic_score_codex":0.0000053143526,"about_ca_topic_score_gemma":0.000006273091,"teacher_disagreement_score":0.03373999,"about_ca_system_score_codex":0.00006499383,"about_ca_system_score_gemma":0.000007714756,"threshold_uncertainty_score":0.8647189},"labels":[],"label_agreement":null},{"id":"W2986058888","doi":"10.1002/adma.201904876","title":"Low‐Bandgap Se‐Deficient Antimony Selenide as a Multifunctional Polysulfide Barrier toward High‐Performance Lithium–Sulfur Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":340,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"University of Waterloo; Natural Science Foundation of Hebei Province; Ministry of Education of the People's Republic of China; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Polysulfide; Materials science; Antimony; Selenide; Lithium (medication); Band gap; Sulfur; Lithium–sulfur battery; Nanotechnology; Inorganic chemistry; Optoelectronics; Electrochemistry; Selenium; Electrolyte; Metallurgy; Electrode; Chemistry","score_opus":0.006932931811268953,"score_gpt":0.20874290877015203,"score_spread":0.20180997695888309,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2986058888","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9909793,0.00015681387,0.0010539256,0.00013184748,0.004586579,0.0005476482,0.00025323566,0.0015346829,0.00075593963],"genre_scores_gemma":[0.99399537,0.00033304922,0.0038051705,0.00026171887,0.00019096468,0.00017203297,0.00009306083,0.00012412999,0.0010245206],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975438,0.000032639375,0.0006949721,0.00057258736,0.00039853156,0.00075747486],"domain_scores_gemma":[0.9989152,0.00007148471,0.00015069036,0.0006397667,0.00012447855,0.00009840391],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00021460086,0.0005405401,0.00070059794,0.0001763116,0.00012548963,0.0001530651,0.00036209033,0.00022747253,0.0022033236],"category_scores_gemma":[0.000074351956,0.0004937459,0.000071274735,0.00020288398,0.000111739806,0.0008551393,0.00014828198,0.00016565633,0.0013586687],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001648398,0.00002886371,0.00019365773,0.0004062366,0.000047253394,0.000010719034,0.000106970234,0.016511768,0.9797824,0.00037190772,0.0003013072,0.0020740551],"study_design_scores_gemma":[0.00086252735,0.0001697213,0.002592665,0.00018210092,0.000018865103,0.000032258893,0.00013317032,0.00011391288,0.9820373,0.00056036527,0.0126617225,0.00063539617],"about_ca_topic_score_codex":0.000020774987,"about_ca_topic_score_gemma":0.0000018352755,"teacher_disagreement_score":0.016397856,"about_ca_system_score_codex":0.0001503241,"about_ca_system_score_gemma":0.000037273643,"threshold_uncertainty_score":0.9997514},"labels":[],"label_agreement":null},{"id":"W2990042395","doi":"10.1002/adma.201905517","title":"Nacre‐Inspired Composite Electrolytes for Load‐Bearing Solid‐State Lithium‐Metal Batteries","year":2019,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":155,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec","funders":"Air Force Office of Scientific Research; China Scholarship Council; National Natural Science Foundation of China; National Science Foundation","keywords":"Materials science; Electrolyte; Ceramic; Polymer; Composite material; Fast ion conductor; Composite number; Chemical engineering; Electrode","score_opus":0.006000042301562068,"score_gpt":0.22099875847964953,"score_spread":0.21499871617808747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2990042395","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9898581,0.00031638442,0.004854517,0.00006295887,0.0018183895,0.0008039879,0.00022132129,0.0016218055,0.00044256548],"genre_scores_gemma":[0.98745227,0.0002241821,0.011184171,0.00009659946,0.00011700812,0.0002701151,0.000058196798,0.00013345058,0.00046402615],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99809146,0.000019854024,0.00054286444,0.00041269825,0.00021047198,0.000722646],"domain_scores_gemma":[0.9991459,0.000091991016,0.00012170963,0.00046864784,0.00011627715,0.000055448112],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00021084391,0.00041361895,0.000693939,0.00009562568,0.00010165986,0.000156689,0.00031180985,0.00012900145,0.00017097744],"category_scores_gemma":[0.00005608354,0.00039777107,0.00008195387,0.00010890532,0.00006554027,0.0006034363,0.00011323128,0.000091880516,0.00019139901],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001533176,0.000013394499,0.00003676891,0.00035053518,0.000064440625,0.0000037902605,0.000060757906,0.0040807496,0.992107,0.00031627825,0.00010975677,0.0027032462],"study_design_scores_gemma":[0.00085870526,0.0001728238,0.00024285092,0.00009239434,0.000019161476,0.000012131145,0.000031379415,0.00011241717,0.9818375,0.0040467256,0.012077049,0.00049683225],"about_ca_topic_score_codex":0.000005452537,"about_ca_topic_score_gemma":0.0000043786886,"teacher_disagreement_score":0.011967293,"about_ca_system_score_codex":0.00014111704,"about_ca_system_score_gemma":0.000020800022,"threshold_uncertainty_score":0.9998474},"labels":[],"label_agreement":null},{"id":"W2998762612","doi":"10.1002/adma.201906889","title":"Retrieving the Coassembly Pathway of Composite Cellulose Nanocrystal Photonic Films from their Angular Optical Response","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"FPInnovations; University of British Columbia","funders":"European Research Council; Biotechnology and Biological Sciences Research Council; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; Isaac Newton Trust; Engineering and Physical Sciences Research Council; Natural Sciences and Engineering Research Council of Canada; Horizon 2020 Framework Programme","keywords":"Materials science; Nanocrystal; Cellulose; Rheology; Chemical engineering; Liquid crystal; Composite number; Suspension (topology); Evaporation; Nanoparticle; Nanotechnology; Composite material; Optoelectronics","score_opus":0.020854176292583838,"score_gpt":0.26004126855920695,"score_spread":0.2391870922666231,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2998762612","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9936642,0.0014167319,0.0017399229,0.0008002118,0.00040851635,0.00070749037,0.00092292327,0.00016369518,0.00017627924],"genre_scores_gemma":[0.98975587,0.00021830303,0.009375024,0.00027398695,0.00012930707,0.00007263603,0.00003762409,0.000061728446,0.00007551788],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99624574,0.0007148769,0.0008143415,0.0007191742,0.0007854514,0.00072040677],"domain_scores_gemma":[0.9967166,0.0016404627,0.00040029938,0.0007377928,0.00028011118,0.00022472843],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0013896197,0.00039468834,0.0008232055,0.000045800007,0.00026908258,0.000120442186,0.00082938955,0.00011060729,0.00086059194],"category_scores_gemma":[0.0018895612,0.00026621472,0.0001306694,0.00031746234,0.00053746626,0.00038280882,0.00077176216,0.00018442092,0.00014922007],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0032713073,0.00005182226,0.0000092063,0.00007663151,0.00003492624,0.0000618953,0.0011158581,0.00017095402,0.99454606,0.00021575372,0.00010886946,0.00033669532],"study_design_scores_gemma":[0.0008188655,0.00031891846,0.00022582726,0.000107772474,0.000021745456,0.000004715346,0.00071187504,0.00004980128,0.99317026,0.00058300275,0.003689534,0.00029767863],"about_ca_topic_score_codex":0.00003812314,"about_ca_topic_score_gemma":0.0000034253392,"teacher_disagreement_score":0.0076351007,"about_ca_system_score_codex":0.00008831899,"about_ca_system_score_gemma":0.00015658862,"threshold_uncertainty_score":0.999979},"labels":[],"label_agreement":null},{"id":"W2998979040","doi":"10.1002/adma.201906806","title":"Hydration‐Effect‐Promoting Ni–Fe Oxyhydroxide Catalysts for Neutral Water Oxidation","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":108,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China; Canadian Institute for Advanced Research; Ministry of Science and Technology","keywords":"Overpotential; Catalysis; Oxygen evolution; Electrolyte; Dissociation (chemistry); Electrocatalyst; Inorganic chemistry; Adsorption; Oxide; Materials science; Water splitting; Metal; Chemical engineering; Electrochemistry; Chemistry; Physical chemistry; Electrode; Photocatalysis; Organic chemistry","score_opus":0.0085518878402695,"score_gpt":0.22896767120484382,"score_spread":0.22041578336457432,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2998979040","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99591583,0.000024122075,0.0008449514,0.0011039469,0.0006255248,0.0005404877,0.000008453769,0.0003719511,0.0005647555],"genre_scores_gemma":[0.9960263,0.000007463311,0.0013288555,0.0005272904,0.00045140038,0.00020825706,0.0011941324,0.000087548025,0.00016875549],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980702,0.00010285348,0.00048715572,0.0005334905,0.00025956603,0.00054672646],"domain_scores_gemma":[0.99915963,0.00007463262,0.0001674579,0.00030096952,0.0001571263,0.00014018282],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00042260106,0.00029848283,0.0004162898,0.00006690638,0.00018956994,0.00008158481,0.00024384039,0.00012922792,0.000117111944],"category_scores_gemma":[0.00029533028,0.00024667,0.000094897136,0.00013016154,0.000028693828,0.0007065327,0.00008102058,0.00006764142,0.00028648783],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031268425,0.000014640721,0.000004183537,0.00014565329,0.000041108295,0.000004734392,0.0003565629,0.0012936372,0.9943498,0.0015999265,0.00035684765,0.001520224],"study_design_scores_gemma":[0.0012533611,0.0003262809,0.000013148948,0.000026115085,0.00006027174,0.000005376266,0.000018706,0.00020364055,0.9903859,0.001093626,0.0063036634,0.0003099149],"about_ca_topic_score_codex":0.00018359673,"about_ca_topic_score_gemma":0.00008387985,"teacher_disagreement_score":0.0059468155,"about_ca_system_score_codex":0.00015565226,"about_ca_system_score_gemma":0.000027429822,"threshold_uncertainty_score":0.99999857},"labels":[],"label_agreement":null},{"id":"W2999084662","doi":"10.1002/adma.202070010","title":"Memristive Switching: Magneto‐Memristive Switching in a 2D Layer Antiferromagnet (Adv. Mater. 2/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Spintronics; Neuromorphic engineering; Materials science; Magnetism; Memristor; Antiferromagnetism; Nanotechnology; Nanoscopic scale; Tunnel magnetoresistance; Condensed matter physics; Layer (electronics); Ferromagnetism; Electrical engineering; Computer science; Physics; Engineering; Artificial neural network","score_opus":0.017225684449818635,"score_gpt":0.24494416885898115,"score_spread":0.2277184844091625,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2999084662","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98987496,0.00037422974,0.005963918,0.00024250991,0.001077479,0.0005612677,0.00006572759,0.0008649331,0.0009749499],"genre_scores_gemma":[0.9943041,0.00015019588,0.0043620705,0.0004935182,0.00042344493,0.00005321934,0.00003068543,0.00013335655,0.000049415],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997361,0.00010332199,0.00081303343,0.0006739724,0.0002908531,0.00075784215],"domain_scores_gemma":[0.9990891,0.00015093414,0.00016467957,0.00030670856,0.000062499355,0.0002260671],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002609301,0.0005482664,0.0007811527,0.00009867449,0.00013423801,0.000104847284,0.00035697836,0.00014241239,0.00028631612],"category_scores_gemma":[0.0002189265,0.0005640839,0.00007939284,0.0003874333,0.000028426926,0.0006887217,0.00015056711,0.00038756596,0.00017919992],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020669917,0.000018342156,0.000051241816,0.0002618697,0.000020392365,0.0002933633,0.0011147996,0.03700769,0.9575873,0.00011164763,0.00012603475,0.0032006437],"study_design_scores_gemma":[0.001263612,0.00019894718,0.0012652553,0.00021936897,0.000026981383,0.000040032115,0.0003875544,0.0030177974,0.9899046,0.000902068,0.0019845318,0.0007892682],"about_ca_topic_score_codex":0.0000147583,"about_ca_topic_score_gemma":0.000010143393,"teacher_disagreement_score":0.03398989,"about_ca_system_score_codex":0.00013085442,"about_ca_system_score_gemma":0.000023835832,"threshold_uncertainty_score":0.99968106},"labels":[],"label_agreement":null},{"id":"W2999605831","doi":"10.1002/adma.201905914","title":"Ultrasound‐Triggered Enzymatic Gelation","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Blood properties and coagulation","field":"Medicine","cited_by":71,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"ISIS Neutron and Muon Source; British Heart Foundation; Science and Technology Facilities Council; Versus Arthritis; Medical Research Council; Engineering and Physical Sciences Research Council; UK Regenerative Medicine Platform; Medical Research Council Canada; Rosetrees Trust; Whitaker International Program; Institute of International Education; National Science Foundation","keywords":"Self-healing hydrogels; Materials science; Enzyme catalysis; Tissue transglutaminase; Enzyme; Catalysis; Ultrasound; Biophysics; Nanotechnology; Chemistry; Biochemistry; Polymer chemistry","score_opus":0.02390811987552846,"score_gpt":0.25037069977842297,"score_spread":0.2264625799028945,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2999605831","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9953393,0.00019784646,0.00078187155,0.0017672289,0.0001868271,0.00037195586,0.000008486977,0.0001363217,0.0012102115],"genre_scores_gemma":[0.99482095,0.00004613934,0.0030473662,0.0015744246,0.00022478947,0.00002128401,0.000052862313,0.000018511135,0.000193656],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993106,0.000025107876,0.00023302731,0.00014985166,0.00015946191,0.0001219571],"domain_scores_gemma":[0.99962837,0.000026127962,0.000074179625,0.00012520117,0.00006739358,0.0000787437],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007657667,0.00008859485,0.00021655428,0.00001615991,0.000039907678,0.000022187392,0.00003381341,0.000046170077,0.0008935055],"category_scores_gemma":[0.00023226581,0.000071602066,0.000028051318,0.0000791823,0.00001459976,0.00013558188,0.000012560527,0.000034728222,0.00023391677],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023872928,0.000016684593,0.0001489437,0.00011892093,0.000017037375,0.0000029844994,0.00021608366,0.000036463403,0.9964471,0.00030121297,0.00033407062,0.002121793],"study_design_scores_gemma":[0.0012391253,0.000234966,0.0069811926,0.00006691268,0.000074535266,0.000025912434,0.000081214544,0.000053479187,0.98404425,0.00055443763,0.006520087,0.00012385778],"about_ca_topic_score_codex":0.0000056229715,"about_ca_topic_score_gemma":3.4392602e-7,"teacher_disagreement_score":0.012402796,"about_ca_system_score_codex":0.000022104075,"about_ca_system_score_gemma":0.000024131237,"threshold_uncertainty_score":0.9783259},"labels":[],"label_agreement":null},{"id":"W3000171146","doi":"10.1002/adma.201906497","title":"Stabilizing Surface Passivation Enables Stable Operation of Colloidal Quantum Dot Photovoltaic Devices at Maximum Power Point in an Air Ambient","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Ministry of Science and ICT, South Korea; Daegu Gyeongbuk Institute of Science and Technology; National Research Foundation of Korea; University of Toronto; Canada Foundation for Innovation; Government of Ontario; Ministry of Science, ICT and Future Planning; National Research Foundation","keywords":"Passivation; Materials science; Photovoltaic system; Quantum dot; Optoelectronics; Nanotechnology; Energy conversion efficiency; Inert gas; Layer (electronics); Composite material; Electrical engineering","score_opus":0.02571164241597094,"score_gpt":0.25017465941126327,"score_spread":0.22446301699529234,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3000171146","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99794745,0.00023684702,0.00012947175,0.00032557177,0.00045233502,0.0006135233,0.0001591645,0.00008805435,0.00004756516],"genre_scores_gemma":[0.99729294,0.00005830771,0.002187058,0.00027460762,0.000038642156,0.00005328213,0.00003423117,0.00003921811,0.000021733636],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974795,0.0003236268,0.0008410024,0.0005329588,0.00041520575,0.00040768023],"domain_scores_gemma":[0.9989253,0.00009394775,0.00036539472,0.00030877857,0.00019849361,0.00010805193],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00089236826,0.00025731284,0.00055671367,0.000053825,0.00015343691,0.00013211498,0.0002579104,0.00008817252,0.001860751],"category_scores_gemma":[0.00021779601,0.00021514266,0.000037654765,0.00016648011,0.00008945239,0.0013013205,0.00014941406,0.0000477966,0.00007310517],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006685052,0.000088824476,0.00055381015,0.00019902337,0.0000040618675,0.0000034904642,0.0015160083,0.008087056,0.9885049,0.0002986319,0.000041913187,0.000033779208],"study_design_scores_gemma":[0.0005329901,0.00038789128,0.0015146898,0.00011253039,0.00000913956,0.000001378899,0.0012656595,0.00042647248,0.99417704,0.00029825434,0.0009929502,0.00028102257],"about_ca_topic_score_codex":0.00046874865,"about_ca_topic_score_gemma":0.00029208433,"teacher_disagreement_score":0.007660583,"about_ca_system_score_codex":0.0001688041,"about_ca_system_score_gemma":0.0000896054,"threshold_uncertainty_score":0.9990517},"labels":[],"label_agreement":null},{"id":"W3000744628","doi":"10.1002/adma.201906939","title":"Highly Thermoconductive, Thermostable, and Super‐Flexible Film by Engineering 1D Rigid Rod‐Like Aramid Nanofiber/2D Boron Nitride Nanosheets","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Thermal properties of materials","field":"Materials Science","cited_by":397,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Australian Research Council; Nanjing University; Nanjing University of Science and Technology; National Natural Science Foundation of China","keywords":"Materials science; Aramid; Boron nitride; Nanofiber; Boron; Composite material; Nanotechnology; Organic chemistry","score_opus":0.010829876563862851,"score_gpt":0.20368207514617792,"score_spread":0.19285219858231506,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3000744628","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99301314,0.0010660907,0.00012272329,0.0006038608,0.0018274328,0.0012151577,0.00077959057,0.0007879194,0.0005840681],"genre_scores_gemma":[0.9944039,0.00017921875,0.0028851887,0.001102164,0.0003257761,0.00023766063,0.00007471564,0.0001887826,0.0006026059],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962174,0.00023380834,0.00090008235,0.0010928106,0.0005389127,0.0010169277],"domain_scores_gemma":[0.9983759,0.00013175514,0.0003278421,0.00063305645,0.00016769009,0.00036375033],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006572583,0.00070743175,0.0010154657,0.00006320312,0.00025195142,0.00048341663,0.000703451,0.00023041083,0.00475198],"category_scores_gemma":[0.00029410687,0.0006098528,0.000074026895,0.00014481055,0.00020059706,0.0014540233,0.00044360652,0.00012558597,0.0006770821],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00066817424,0.0000438909,0.00000587195,0.00024945693,0.000032594708,0.00001846152,0.0004597034,0.00047245884,0.99599016,0.00016972287,0.0015758127,0.00031369185],"study_design_scores_gemma":[0.0011959057,0.00024926534,0.00008815104,0.00008434926,0.000039313858,0.000020270163,0.00012720774,0.0000137854295,0.96858007,0.00012944882,0.028713044,0.00075920374],"about_ca_topic_score_codex":0.00018486852,"about_ca_topic_score_gemma":0.0000016370585,"teacher_disagreement_score":0.027410105,"about_ca_system_score_codex":0.000119986995,"about_ca_system_score_gemma":0.00007641438,"threshold_uncertainty_score":0.9996353},"labels":[],"label_agreement":null},{"id":"W3001946510","doi":"10.1002/adma.201905966","title":"Enlightening Materials with Photoswitches","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Photochromic and Fluorescence Chemistry","field":"Materials Science","cited_by":579,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Fonds Québécois de la Recherche sur la Nature et les Technologies; Alexander von Humboldt-Stiftung","keywords":"Materials science; Nanotechnology","score_opus":0.022139774218921094,"score_gpt":0.28328761676528424,"score_spread":0.26114784254636314,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3001946510","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.004738528,0.9896712,0.00006271458,0.000016413514,0.0012146964,0.0017014325,0.0014833076,0.00051316526,0.0005985441],"genre_scores_gemma":[0.0006168414,0.99204934,0.0047232015,0.000080094316,0.0007337676,0.0009488283,0.00037224859,0.00024111058,0.00023457794],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9958292,0.00018697088,0.0013147251,0.0013215699,0.0004988815,0.00084863143],"domain_scores_gemma":[0.9974038,0.00014366917,0.001162943,0.0008904662,0.00011629735,0.00028281915],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00047699656,0.0011060609,0.0038728793,0.00008373255,0.00018349545,0.00039424092,0.001085684,0.0004584822,0.004358869],"category_scores_gemma":[0.00015890399,0.0007776776,0.00019000811,0.000248148,0.00023867047,0.00039048662,0.00033908137,0.00022059094,0.0017656223],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000868155,0.000024888304,2.8787262e-8,0.011594438,0.00005101187,0.00013791367,0.000058114303,2.2780392e-7,0.9574632,0.000036616762,0.0002112743,0.030335456],"study_design_scores_gemma":[0.00020500705,0.00004928549,6.098283e-8,0.0070177214,0.00024961997,0.00013918214,0.000016772974,1.9719169e-8,0.55307376,0.000036866,0.43862945,0.0005822452],"about_ca_topic_score_codex":0.000020468775,"about_ca_topic_score_gemma":9.5022557e-7,"teacher_disagreement_score":0.43841818,"about_ca_system_score_codex":0.00026477335,"about_ca_system_score_gemma":0.0005767761,"threshold_uncertainty_score":0.99946743},"labels":[],"label_agreement":null},{"id":"W3003656114","doi":"10.1002/adma.201905876","title":"Understanding the Self‐Assembly of Cellulose Nanocrystals—Toward Chiral Photonic Materials","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":307,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"First Quantum Minerals (Canada); University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Structural coloration; Materials science; Iridescence; Nanotechnology; Photonics; Nanocellulose; Photonic crystal; Liquid crystal; Metamaterial; Cellulose; Photonic metamaterial; Nanocrystal; Self-assembly; Optoelectronics; Chemical engineering; Optics","score_opus":0.10711647440251419,"score_gpt":0.34740392110071444,"score_spread":0.24028744669820024,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3003656114","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0015084569,0.98736066,0.0009506848,0.000101038946,0.0028380202,0.004054504,0.0019809857,0.00047760678,0.0007280535],"genre_scores_gemma":[0.009361873,0.9858349,0.002675367,0.000040027076,0.00051979686,0.00080082566,0.00014743191,0.00029928895,0.00032049822],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9912577,0.0014681793,0.0026958927,0.0015024146,0.0015052807,0.0015704891],"domain_scores_gemma":[0.99448603,0.0010977653,0.0024882993,0.0013911244,0.00025636598,0.00028038656],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0022000766,0.0014283872,0.0054478752,0.00025299884,0.00043654267,0.00035703386,0.0020457392,0.00036824885,0.0012661257],"category_scores_gemma":[0.0007618067,0.00093843095,0.0005746942,0.00072376605,0.00064069475,0.0005591034,0.0015273291,0.00040182745,0.0006619358],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011749381,0.000091340364,3.0490654e-8,0.028978663,0.00030819065,0.00011285161,0.0004512411,0.000006678725,0.9573745,0.0039901487,0.00027487066,0.008293961],"study_design_scores_gemma":[0.00039956937,0.00015866301,1.0675864e-7,0.004538542,0.00053211284,0.000047039557,0.00020140811,4.4754924e-7,0.62365043,0.0016446776,0.36808488,0.00074210635],"about_ca_topic_score_codex":0.000022111812,"about_ca_topic_score_gemma":0.000003616275,"teacher_disagreement_score":0.36781,"about_ca_system_score_codex":0.0012081498,"about_ca_system_score_gemma":0.0009125979,"threshold_uncertainty_score":0.99984664},"labels":[],"label_agreement":null},{"id":"W3004418178","doi":"10.1002/adma.201902964","title":"Ligand‐Exchange‐Induced Amorphization of Pd Nanomaterials for Highly Efficient Electrocatalytic Hydrogen Evolution Reaction","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":242,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Brookhaven National Laboratory; Argonne National Laboratory; Basic Energy Sciences; Office of Science; Ministry of Education, India; U.S. Department of Energy; Nanyang Technological University; Ministry of Education - Singapore; Canadian Light Source; City University of Hong Kong","keywords":"Nanomaterials; Materials science; Electrocatalyst; Amorphous solid; Noble metal; Nanotechnology; Ligand (biochemistry); Amorphous metal; Nanoparticle; Transition metal; Metal; Catalysis; Chemical engineering; Electrochemistry; Chemistry; Crystallography; Physical chemistry; Metallurgy; Alloy; Organic chemistry; Electrode","score_opus":0.011694447263668445,"score_gpt":0.2265196759352659,"score_spread":0.21482522867159745,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3004418178","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955785,0.00011017591,0.0022394913,0.00022658912,0.0006666907,0.0006892461,0.000029629604,0.00027230982,0.00018736809],"genre_scores_gemma":[0.99813086,0.000040035025,0.00047056424,0.00010390583,0.0003723134,0.00016682393,0.0005683472,0.00008424649,0.00006292337],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978205,0.00008711865,0.0007030262,0.0005244477,0.0004124001,0.0004525228],"domain_scores_gemma":[0.9985127,0.000069726244,0.0005854217,0.00033930875,0.00037860463,0.00011428091],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00039951858,0.0002968064,0.0005519403,0.00014763765,0.00011991781,0.000027761133,0.00023414785,0.0001826602,0.000050696377],"category_scores_gemma":[0.00045770223,0.0003029366,0.00010715955,0.0003843099,0.000031984247,0.00029881595,0.000062881474,0.00004330661,0.00006835714],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00095560466,0.00005438617,0.0000012153762,0.00023517116,0.00005740617,0.000001419831,0.00016169755,0.0020300415,0.99018955,0.005632449,0.0000578682,0.00062316825],"study_design_scores_gemma":[0.0013738407,0.00056769315,0.000038299517,0.00004829039,0.00010670211,0.0000064719798,0.00003127593,0.00035805764,0.9946296,0.0007725729,0.0017689862,0.00029820323],"about_ca_topic_score_codex":0.00019126493,"about_ca_topic_score_gemma":0.000026848627,"teacher_disagreement_score":0.0048598764,"about_ca_system_score_codex":0.00040551554,"about_ca_system_score_gemma":0.00010808002,"threshold_uncertainty_score":0.9999423},"labels":[],"label_agreement":null},{"id":"W3005534461","doi":"10.1002/adma.201906886","title":"Exploiting Supramolecular Interactions from Polymeric Colloids for Strong Anisotropic Adhesion between Solid Surfaces","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Adhesion, Friction, and Surface Interactions","field":"Engineering","cited_by":94,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Horizon 2020 Framework Programme; Aalto-Yliopisto; H2020 European Research Council; Division of Materials Research; Australian Synchrotron; Australian Nuclear Science and Technology Organisation","keywords":"Materials science; Adhesion; Adhesive; Nanotechnology; Anisotropy; Supramolecular chemistry; Biomimetics; Self-assembly; Colloid; Evaporation; Nanostructure; Composite material; Aqueous solution; Chemical engineering; Chemical physics; Crystallography; Crystal structure; Chemistry; Optics","score_opus":0.02681439183570004,"score_gpt":0.2765886029292551,"score_spread":0.24977421109355505,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3005534461","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.92724437,0.00019753865,0.069158435,0.00016056205,0.0014505656,0.0003822291,0.00064294954,0.0005879848,0.00017534435],"genre_scores_gemma":[0.9879985,0.00012607385,0.01075989,0.00006242553,0.000509851,0.000109854576,0.00028083342,0.00008822507,0.000064388005],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99861497,0.000047737216,0.0005036236,0.00032426056,0.00016446263,0.00034492766],"domain_scores_gemma":[0.9991939,0.0002541661,0.000110888424,0.00019641117,0.00009505703,0.00014959079],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000056822828,0.0002633602,0.00041378816,0.000055874476,0.00023787064,0.00010366432,0.00015732097,0.00007945096,0.0004267737],"category_scores_gemma":[0.00012938133,0.00028554074,0.00009831003,0.00015482768,0.000022372538,0.0006199905,0.00003653254,0.000107409745,0.000089005945],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000045409997,0.000011849405,0.00029311085,0.000045898734,0.000080642676,0.0000018405955,0.00036610904,0.008760031,0.98913145,0.000038224764,0.00048638126,0.0007390232],"study_design_scores_gemma":[0.00054416916,0.0001123415,0.0009198541,0.00006665966,0.00007281574,0.0000012051762,0.0009838735,0.0017157518,0.9794674,0.00017491239,0.015615281,0.00032574835],"about_ca_topic_score_codex":0.00006424412,"about_ca_topic_score_gemma":0.000015236962,"teacher_disagreement_score":0.060754072,"about_ca_system_score_codex":0.00010724138,"about_ca_system_score_gemma":0.000024061685,"threshold_uncertainty_score":0.99995965},"labels":[],"label_agreement":null},{"id":"W3007755702","doi":"10.1002/adma.201907565","title":"Emergence of Nontrivial Low‐Energy Dirac Fermions in Antiferromagnetic EuCd<sub>2</sub>As<sub>2</sub>","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Topological Materials and Phenomena","field":"Physics and Astronomy","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Canada First Research Excellence Fund; Beijing Municipal Science and Technology Commission; National Natural Science Foundation of China; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; U.S. Department of Energy; K. C. Wong Education Foundation; Chinese Academy of Sciences; National Science Foundation","keywords":"Topological insulator; Physics; Dirac fermion; Parity (physics); Antiferromagnetism; Topological order; Condensed matter physics; Point reflection; Fermion; Topology (electrical circuits); Semimetal; Quantum mechanics; Band gap","score_opus":0.008517860915419305,"score_gpt":0.22506797420030883,"score_spread":0.21655011328488952,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3007755702","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966281,0.000095907424,0.00051530404,0.00031382847,0.0008288584,0.00032138248,0.0003986683,0.0000630581,0.0008348924],"genre_scores_gemma":[0.99864954,0.00013754715,0.00017012814,0.00025470793,0.0005362063,0.000100000114,0.00009459298,0.000046738798,0.0000105417585],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99755836,0.00017349984,0.00088599534,0.00056231325,0.00025040554,0.00056943996],"domain_scores_gemma":[0.99894094,0.00007933307,0.00035233184,0.00032412258,0.00009271689,0.00021057561],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016865013,0.00037299716,0.0008018738,0.00006314251,0.00009081113,0.00005347383,0.00033038188,0.00009690089,0.0019672168],"category_scores_gemma":[0.000058669935,0.00034529087,0.00011768294,0.00029665852,0.000121359786,0.00023371616,0.0002106771,0.00009481129,0.0001771769],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025965326,0.00017657212,0.00016218769,0.00006443121,0.00002353632,0.000010701985,0.00012799725,0.0003098933,0.98095214,0.013949715,0.00009526776,0.003867878],"study_design_scores_gemma":[0.0008966568,0.00034499567,0.001405906,0.000067053516,0.000024838144,8.043744e-7,0.000091244634,0.00001963927,0.97659755,0.01987729,0.0002911489,0.00038288298],"about_ca_topic_score_codex":0.00013335705,"about_ca_topic_score_gemma":0.000010094135,"teacher_disagreement_score":0.0059275753,"about_ca_system_score_codex":0.000014856745,"about_ca_system_score_gemma":0.00006326483,"threshold_uncertainty_score":0.9998999},"labels":[],"label_agreement":null},{"id":"W3009401826","doi":"10.1002/adma.202000338","title":"Binding Zinc Ions by Carboxyl Groups from Adjacent Molecules toward Long‐Life Aqueous Zinc–Organic Batteries","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":396,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Zinc; Electrochemistry; Aqueous solution; Molecule; Materials science; Solubility; Cathode; Battery (electricity); Binding energy; Kinetics; Ion; Electrode; Inorganic chemistry; Chemistry; Organic chemistry; Physical chemistry","score_opus":0.01740967750740711,"score_gpt":0.2413192927276051,"score_spread":0.223909615220198,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3009401826","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95706993,0.001789862,0.034580026,0.0016217164,0.0007672248,0.00054556044,0.0010925493,0.0023861304,0.00014698785],"genre_scores_gemma":[0.99155873,0.0015486532,0.005550173,0.00044928576,0.00017809035,0.00017130723,0.00031590427,0.00019773807,0.000030128504],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973999,0.00006552386,0.00058998645,0.000637837,0.00045425186,0.0008524664],"domain_scores_gemma":[0.99882555,0.00013278639,0.000104725776,0.00057749863,0.00007097165,0.00028845578],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0000903798,0.00049461954,0.0006583778,0.00010339698,0.00012751207,0.00015341329,0.0007231498,0.00022367433,0.0011598972],"category_scores_gemma":[0.00047210144,0.0005169108,0.00007095425,0.00034927588,0.00014921871,0.00045416513,0.0004739747,0.00031330777,0.00045774606],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000056816272,0.000017898916,0.000056946414,0.00013325324,0.00008102584,0.00007045001,0.0001922215,0.0014262801,0.9926713,0.000050502233,0.0019294447,0.0033138534],"study_design_scores_gemma":[0.0005917668,0.00010241353,0.00012546645,0.00007800342,0.000023065739,0.00000532382,0.00035321733,0.00021685209,0.9904095,0.00048275423,0.007018894,0.0005927287],"about_ca_topic_score_codex":0.000022488895,"about_ca_topic_score_gemma":0.000011673438,"teacher_disagreement_score":0.03448878,"about_ca_system_score_codex":0.00028223597,"about_ca_system_score_gemma":0.000035195833,"threshold_uncertainty_score":0.9997532},"labels":[],"label_agreement":null},{"id":"W3010837988","doi":"10.1002/adma.202003314","title":"Imaging Domain Reversal in an Ultrathin Van der Waals Ferromagnet","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Australian Research Council; National Key Research and Development Program of China; Skolkovo Institute of Science and Technology; National Natural Science Foundation of China; Ontario Ministry of Natural Resources and Forestry; University of Melbourne; RMIT University; Australian Government; Australian National Fabrication Facility","keywords":"Condensed matter physics; van der Waals force; Materials science; Ferromagnetism; Coercivity; Nucleation; Magnetization; Magnetic domain; Curie temperature; Domain wall (magnetism); Magnetic force microscope; Hysteresis; Magnetic field; Physics; Thermodynamics","score_opus":0.01548464594138249,"score_gpt":0.27247023070102977,"score_spread":0.2569855847596473,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3010837988","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99550074,0.00008416086,0.0006993562,0.0016277116,0.0004597784,0.0005406678,0.00023978364,0.00026417142,0.0005836426],"genre_scores_gemma":[0.9769407,0.000022505648,0.020828968,0.0015841511,0.00029052273,0.00017565244,0.000068864116,0.000052614865,0.000036011515],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976698,0.00021483477,0.0006595894,0.0006686702,0.00027373,0.00051334006],"domain_scores_gemma":[0.99902093,0.000044423425,0.0002046345,0.00043301945,0.00007676002,0.0002202457],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006364356,0.00027730616,0.00047294478,0.000049323033,0.0001271361,0.00026799378,0.0004519462,0.0000725916,0.0036089618],"category_scores_gemma":[0.00011229097,0.00026272875,0.000035213518,0.0001801332,0.00009053833,0.0008749924,0.00011774224,0.00006721958,0.0007194551],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009882208,0.000053458753,0.00006889741,0.000045921523,0.0000015297677,0.000025488825,0.00062882906,0.00010916688,0.99626976,0.0022288885,0.00021318941,0.00025603586],"study_design_scores_gemma":[0.0007947302,0.000081286256,0.0008801727,0.000035925343,0.000010641139,0.000010053812,0.00024539465,0.000014095756,0.98586595,0.006306398,0.0053926595,0.00036269263],"about_ca_topic_score_codex":0.00006287855,"about_ca_topic_score_gemma":0.00002951017,"teacher_disagreement_score":0.020129612,"about_ca_system_score_codex":0.000059540533,"about_ca_system_score_gemma":0.000054706798,"threshold_uncertainty_score":0.9999825},"labels":[],"label_agreement":null},{"id":"W3012399519","doi":"10.1002/adma.201906199","title":"A Chemically Orthogonal Hole Transport Layer for Efficient Colloidal Quantum Dot Solar Cells","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":102,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Brookhaven National Laboratory; Office of Science; U.S. Department of Energy","keywords":"Materials science; Quantum dot; Active layer; Energy conversion efficiency; Nanotechnology; Optoelectronics; Layer (electronics); Colloid; Chemical engineering","score_opus":0.02533243008282663,"score_gpt":0.24277718225372696,"score_spread":0.21744475217090034,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3012399519","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99422777,0.00014418107,0.0020277952,0.0007046253,0.000929987,0.00077636796,0.0008395142,0.00019780392,0.00015195885],"genre_scores_gemma":[0.99301213,0.00004225188,0.0054125977,0.00083713396,0.00029618278,0.00022580723,0.000032300628,0.00006346339,0.0000781427],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99766326,0.000071005576,0.0006484637,0.0006297501,0.0004092407,0.000578297],"domain_scores_gemma":[0.9990271,0.000116568146,0.00020756075,0.00027351346,0.0001646475,0.00021065686],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00060544006,0.0003146455,0.0006018299,0.00003220187,0.00018375053,0.00010537194,0.00038569723,0.000118186625,0.0016863976],"category_scores_gemma":[0.00014529873,0.0002531677,0.00013368418,0.00010241889,0.00011708194,0.00017439786,0.000060186416,0.00006171708,0.00034986294],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010560565,0.000078174344,0.000004429638,0.00020726072,0.000010915065,0.0000070951137,0.00037346839,0.0010814663,0.99595374,0.00060209085,0.00041027393,0.00021502945],"study_design_scores_gemma":[0.00081508985,0.00021454223,0.00004400135,0.00004851301,0.00003648349,0.000002413531,0.00007761969,0.00016985163,0.96953166,0.00017758046,0.028510109,0.00037215278],"about_ca_topic_score_codex":0.000012924458,"about_ca_topic_score_gemma":0.0000023650211,"teacher_disagreement_score":0.028099835,"about_ca_system_score_codex":0.000036777004,"about_ca_system_score_gemma":0.000109894005,"threshold_uncertainty_score":0.9999921},"labels":[],"label_agreement":null},{"id":"W3014476291","doi":"10.1002/adma.201907376","title":"Tunable Diffraction Gratings from Biosourced Lyotropic Liquid Crystals","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Liquid Crystal Research Advancements","field":"Materials Science","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"FPInnovations; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"Materials science; Liquid crystal; Lyotropic; Diffraction; Lyotropic liquid crystal; Diffraction grating; Optics; Crystallography; Nanotechnology; Liquid crystalline; Optoelectronics; Grating","score_opus":0.021648706419277196,"score_gpt":0.27704574511191005,"score_spread":0.25539703869263286,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3014476291","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99261165,0.00013283305,0.0034359829,0.001145103,0.0007240111,0.00063758995,0.0004405656,0.00041949697,0.0004527854],"genre_scores_gemma":[0.9894637,0.000085109576,0.0080945175,0.0012551141,0.00048074112,0.0001590728,0.00011787028,0.00007358071,0.00027032534],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965875,0.00021771679,0.00068681675,0.00082940917,0.00088084734,0.00079766876],"domain_scores_gemma":[0.9983613,0.00015685911,0.0003591517,0.00049994467,0.0002213077,0.00040141947],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0003325637,0.00035272498,0.0005470299,0.00005866856,0.00024101503,0.00029177888,0.00054295815,0.000102842925,0.007186148],"category_scores_gemma":[0.0013258497,0.00032402703,0.00006766412,0.00023648393,0.00011943897,0.0013249255,0.0003841436,0.0001241156,0.0015315384],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012746315,0.00004438389,0.00000914036,0.00006109051,0.000012968661,0.000023534345,0.00021750138,0.00018268016,0.9973765,0.00014807747,0.00042871753,0.00022079588],"study_design_scores_gemma":[0.0010196384,0.0007108675,0.000109714965,0.00005876561,0.000014781562,0.0000018668868,0.00017642022,0.000021737302,0.9767076,0.000961432,0.019875139,0.00034206948],"about_ca_topic_score_codex":0.00017301107,"about_ca_topic_score_gemma":0.0000071530626,"teacher_disagreement_score":0.02066891,"about_ca_system_score_codex":0.00018426214,"about_ca_system_score_gemma":0.00008613709,"threshold_uncertainty_score":0.9999212},"labels":[],"label_agreement":null},{"id":"W3015170732","doi":"10.1002/adma.202000657","title":"Functional Materials from Nanocellulose: Utilizing Structure–Property Relationships in Bottom‐Up Fabrication","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":288,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Eidgenössische Materialprüfungs- und Forschungsanstalt","keywords":"Nanocellulose; Fabrication; Materials science; Nanotechnology; Nanofiber; Bacterial cellulose; Cellulose; Chemical engineering; Engineering","score_opus":0.1006822331849853,"score_gpt":0.33469516947274547,"score_spread":0.23401293628776015,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3015170732","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.006380222,0.97927445,0.00039559725,0.00009635319,0.005386619,0.0027799525,0.005106123,0.00040036126,0.00018034269],"genre_scores_gemma":[0.007927675,0.980289,0.0060760938,0.000042124975,0.0011869132,0.0008533846,0.0027033146,0.00025245783,0.0006690545],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99147254,0.0017965512,0.002490089,0.0019493988,0.0011826289,0.0011087692],"domain_scores_gemma":[0.9957684,0.0010680666,0.0014533649,0.0010826596,0.00035979185,0.00026767896],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0012617926,0.0011960865,0.0036883557,0.00038066585,0.00047269688,0.00037383445,0.00093028817,0.0006457984,0.0053235954],"category_scores_gemma":[0.002932043,0.0008681282,0.00022822639,0.0007689406,0.00027963176,0.0009718768,0.0007481475,0.00075488386,0.0018864727],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014978646,0.000043890344,0.0000014004264,0.00450713,0.00007644465,0.000053776967,0.00014157861,0.000014697439,0.8843553,0.0004051754,0.00054738735,0.109703414],"study_design_scores_gemma":[0.00072735595,0.00005610611,0.000034998287,0.005271239,0.00024791234,0.000018513107,0.00011706772,0.0000011575529,0.3899196,0.0034957882,0.5989521,0.0011581305],"about_ca_topic_score_codex":0.0001718351,"about_ca_topic_score_gemma":0.000041630614,"teacher_disagreement_score":0.59840477,"about_ca_system_score_codex":0.0010913614,"about_ca_system_score_gemma":0.0005515204,"threshold_uncertainty_score":0.99937695},"labels":[],"label_agreement":null},{"id":"W3015710439","doi":"10.1002/adma.202070103","title":"Anisotropic Adhesion: Exploiting Supramolecular Interactions from Polymeric Colloids for Strong Anisotropic Adhesion between Solid Surfaces (Adv. Mater. 14/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Engineering Technology and Methodologies","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Materials science; Adhesive; Adhesion; Supramolecular chemistry; Anisotropy; Colloid; Nanotechnology; Composite material; Polymer science; Chemical engineering; Crystallography; Optics; Crystal structure; Chemistry","score_opus":0.037809384449078075,"score_gpt":0.2955492589346074,"score_spread":0.2577398744855293,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3015710439","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.868148,0.00061940844,0.12700127,0.00024417962,0.0012827833,0.00043202305,0.00043981714,0.0017993642,0.00003311019],"genre_scores_gemma":[0.87825614,0.00030001413,0.120568186,0.000057179423,0.00033555878,0.00016227984,0.00019579624,0.00010151534,0.000023302451],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982407,0.00008197156,0.00055492757,0.00044905624,0.00015268273,0.00052063627],"domain_scores_gemma":[0.99904794,0.00030301497,0.0001244938,0.00034295185,0.00006180134,0.00011983246],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012702489,0.00038511207,0.0006743896,0.000072393734,0.00015464277,0.0000718825,0.0003523554,0.0002229144,0.00015623624],"category_scores_gemma":[0.00040028268,0.00040648802,0.00009805797,0.00019145384,0.000054998807,0.00038112066,0.00013704697,0.0001929766,0.00004699937],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006370676,0.000008307816,0.00012365685,0.00017282052,0.000098546014,0.000012313053,0.000114358336,0.007146826,0.98996353,0.00014825568,0.00019375414,0.0019539208],"study_design_scores_gemma":[0.00070285675,0.00021386919,0.0009321165,0.00010902331,0.00008517917,0.0000034172933,0.0003205843,0.00051821367,0.9924444,0.00061998557,0.0036471696,0.00040321526],"about_ca_topic_score_codex":0.000013552326,"about_ca_topic_score_gemma":0.0000024733915,"teacher_disagreement_score":0.010108126,"about_ca_system_score_codex":0.00008681129,"about_ca_system_score_gemma":0.000019610414,"threshold_uncertainty_score":0.9998387},"labels":[],"label_agreement":null},{"id":"W3018316467","doi":"10.1002/adma.201906478","title":"A Noble‐Transition Alloy Excels at Hot‐Carrier Generation in the Near Infrared","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Chalcogenide Semiconductor Thin Films","field":"Engineering","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Advanced Micro Devices (Canada)","funders":"Basic Energy Sciences; Division of Chemistry; Conselho Nacional de Desenvolvimento Científico e Tecnológico; U.S. Department of Energy; Division of Materials Research; Office of Science; Tulane University; National Science Foundation","keywords":"Materials science; Infrared; Alloy; Charge carrier; Optoelectronics; Photon; Carrier lifetime; Excited state; Wavelength; Noble gas; Noble metal; Optics; Atomic physics; Metallurgy; Silicon; Physics","score_opus":0.02324657266971209,"score_gpt":0.22266684297508263,"score_spread":0.19942027030537054,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3018316467","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977772,0.00019257574,0.00015284262,0.00032392493,0.00052506325,0.0003724124,0.0001147232,0.00018657383,0.0003546697],"genre_scores_gemma":[0.9971364,0.00009131717,0.0012188589,0.0009268812,0.00028653498,0.0000783488,0.00018358666,0.00004512724,0.00003292013],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990761,0.00006380281,0.0002649827,0.0001970789,0.00018278224,0.00021522434],"domain_scores_gemma":[0.9996518,0.000022599745,0.000035460773,0.0002128034,0.000026703274,0.000050671188],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016668488,0.00016393527,0.00019584406,0.00001911838,0.000055093577,0.0000751364,0.00015197614,0.000083562656,0.00048074665],"category_scores_gemma":[0.000048347832,0.00014516134,0.00003425793,0.00011199752,0.000022518636,0.0002976263,0.000023875054,0.000077301236,0.00010260825],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028504724,0.0000036129165,0.0000020211594,0.00004424399,0.000008672736,0.000011954914,0.003393701,0.029952679,0.9641963,0.000043712633,0.0022158218,0.00009872286],"study_design_scores_gemma":[0.00050992006,0.000027853353,0.00007964816,0.000013919736,0.000010705211,0.000008598343,0.00009155201,0.0032583033,0.97684723,0.00009453523,0.018864132,0.00019357531],"about_ca_topic_score_codex":0.000011257136,"about_ca_topic_score_gemma":0.000020937165,"teacher_disagreement_score":0.026694376,"about_ca_system_score_codex":0.00006461133,"about_ca_system_score_gemma":0.000010408968,"threshold_uncertainty_score":0.5919508},"labels":[],"label_agreement":null},{"id":"W3021248480","doi":"10.1002/adma.202000014","title":"Cobalt Plasmonic Superstructures Enable Almost 100% Broadband Photon Efficient CO<sub>2</sub> Photocatalysis","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Copper-based nanomaterials and applications","field":"Materials Science","cited_by":154,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Higher Education Discipline Innovation Project; Priority Academic Program Development of Jiangsu Higher Education Institutions; China Postdoctoral Science Foundation; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Materials science; Photocatalysis; Cobalt; Plasmon; Broadband; Optoelectronics; Nanotechnology; Catalysis; Optics; Metallurgy","score_opus":0.012092029328272788,"score_gpt":0.2429675841558533,"score_spread":0.2308755548275805,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3021248480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99499154,0.00019273239,0.00020370293,0.00041659197,0.0007253423,0.0012348471,0.0014577456,0.0003880718,0.00038941135],"genre_scores_gemma":[0.9971707,0.00013628426,0.0008546194,0.00075670815,0.00026069427,0.00041037393,0.0003041693,0.00008133484,0.000025131321],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965869,0.00013954581,0.00086232554,0.0010411203,0.00056679995,0.000803263],"domain_scores_gemma":[0.9982931,0.00011997823,0.00036233547,0.0007040599,0.00016176305,0.00035874973],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0004156817,0.00050648383,0.0008102375,0.00008791642,0.00045200318,0.0003792709,0.000608834,0.00016963997,0.0033710955],"category_scores_gemma":[0.00015818498,0.00046101023,0.00013158373,0.00039408586,0.00021478032,0.00026483941,0.00019762774,0.00008978709,0.0013763078],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037170382,0.00008097055,0.000006672513,0.00012374815,0.000018752262,0.000013586291,0.00027469764,0.0015717207,0.9955555,0.00018521541,0.0015324731,0.00026495854],"study_design_scores_gemma":[0.0011481759,0.0001623141,0.000042675016,0.000047710393,0.00006909007,0.000015496573,0.00016651677,0.0000747514,0.9903806,0.00020640114,0.0071444316,0.0005418369],"about_ca_topic_score_codex":0.000095247495,"about_ca_topic_score_gemma":0.000012552956,"teacher_disagreement_score":0.0056119584,"about_ca_system_score_codex":0.00012986746,"about_ca_system_score_gemma":0.0001632605,"threshold_uncertainty_score":0.9997842},"labels":[],"label_agreement":null},{"id":"W3021822282","doi":"10.1002/adma.201906274","title":"Flow Rate Affects Nanoparticle Uptake into Endothelial Cells","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoparticle-Based Drug Delivery","field":"Materials Science","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University Health Network; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Cancer Society","keywords":"Nanoparticle; Materials science; Endothelial stem cell; In vivo; Biophysics; Nanotechnology; Microfluidics; In vitro; Chemistry; Biochemistry; Biology","score_opus":0.01130332366712321,"score_gpt":0.23160481934973548,"score_spread":0.22030149568261226,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3021822282","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99488264,0.000091164155,0.00054244534,0.0009455069,0.00208006,0.00058754586,0.00023617139,0.00052287226,0.000111564594],"genre_scores_gemma":[0.9849545,0.000024551488,0.012235185,0.0020721066,0.00044008737,0.00010173342,0.0000118309745,0.000074496864,0.00008554531],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971907,0.00032764734,0.0005635269,0.0007344337,0.0004357771,0.0007478992],"domain_scores_gemma":[0.9985963,0.00017441502,0.00022296087,0.0004992241,0.00012304551,0.00038406748],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0007427604,0.0003548616,0.000531917,0.000043501354,0.00019379743,0.00022862817,0.00046096198,0.00009017567,0.0024541072],"category_scores_gemma":[0.00039117565,0.0003331335,0.00007730888,0.0002506114,0.00013947194,0.0007087224,0.0002187396,0.0000779271,0.006326336],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005560752,0.0000656688,0.000003244369,0.000086491,0.000007741719,0.00007063768,0.00048522986,0.0028091974,0.99367553,0.00023491586,0.00084267283,0.0011625983],"study_design_scores_gemma":[0.0015841383,0.00028235037,0.000023742507,0.000032736065,0.000029191198,0.000003464857,0.00006473621,0.00043984578,0.98982805,0.00042791927,0.0068931254,0.00039067012],"about_ca_topic_score_codex":0.000025258905,"about_ca_topic_score_gemma":0.000007695551,"teacher_disagreement_score":0.011692739,"about_ca_system_score_codex":0.000092695554,"about_ca_system_score_gemma":0.00010738019,"threshold_uncertainty_score":0.9999121},"labels":[],"label_agreement":null},{"id":"W3022603908","doi":"10.1002/adma.202000030","title":"Tuning the Anode–Electrolyte Interface Chemistry for Garnet‐Based Solid‐State Li Metal Batteries","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":236,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Brookhaven National Laboratory; Vehicle Technologies Office; Pacific Northwest National Laboratory; Basic Energy Sciences; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Office of Science; Division of Materials Research","keywords":"Electrolyte; Anode; Materials science; Lithium (medication); Fast ion conductor; Lithium metal; Metal; Grain boundary; Chemical engineering; Conductivity; Alloy; Nanotechnology; Composite material; Electrode; Metallurgy; Microstructure; Chemistry; Physical chemistry","score_opus":0.012100331710795954,"score_gpt":0.2353442458392094,"score_spread":0.22324391412841346,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3022603908","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.86896384,0.0004421321,0.126156,0.0012328691,0.0005954234,0.0005681972,0.00028536934,0.001608972,0.00014721886],"genre_scores_gemma":[0.99355096,0.000102143786,0.0053476603,0.00037464328,0.00015237712,0.00027936016,0.000038343303,0.000098934375,0.0000555713],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986124,0.000020810725,0.0004168553,0.00031995255,0.00013012723,0.00049987604],"domain_scores_gemma":[0.99936354,0.000096025935,0.00010907108,0.00032175527,0.000051029354,0.00005859803],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013464045,0.00034220776,0.00046112292,0.000020685622,0.00010381292,0.00013140528,0.0003901236,0.00008663938,0.00022229331],"category_scores_gemma":[0.00014571499,0.00026816793,0.00006767471,0.00010325626,0.000103006314,0.0002604767,0.00009899652,0.000110318615,0.0000245265],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013040788,0.000005435171,9.823837e-7,0.00033077068,0.000043416032,0.0000033347003,0.000102562655,0.022487491,0.9749934,0.00002168,0.0003103748,0.00157014],"study_design_scores_gemma":[0.0004799272,0.00008373331,0.000007566127,0.00004088367,0.000025288025,0.0000043397504,0.000074122916,0.0018024847,0.9756054,0.00077615684,0.020778568,0.00032150984],"about_ca_topic_score_codex":0.0000012706597,"about_ca_topic_score_gemma":7.6262444e-7,"teacher_disagreement_score":0.12458714,"about_ca_system_score_codex":0.000043004424,"about_ca_system_score_gemma":0.000016195985,"threshold_uncertainty_score":0.99997705},"labels":[],"label_agreement":null},{"id":"W3023666578","doi":"10.1002/adma.202000474","title":"Phosphonate Metal–Organic Frameworks: A Novel Family of Semiconductors","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft; Deutscher Akademischer Austauschdienst; Western Canada Research Grid; Compute Canada","keywords":"Phosphonate; Materials science; Zigzag; Semiconductor; Dimer; Band gap; Copper; Metal-organic framework; Crystallography; Density functional theory; Chemical physics; Condensed matter physics; Nanotechnology; Physical chemistry; Computational chemistry; Optoelectronics; Chemistry; Organic chemistry; Adsorption","score_opus":0.02041027640184047,"score_gpt":0.24597868381597102,"score_spread":0.22556840741413053,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3023666578","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930053,0.00067922776,0.0034209245,0.0005660635,0.00023785167,0.00016361671,0.00031982947,0.00017950912,0.0014276776],"genre_scores_gemma":[0.9857216,0.00025954895,0.012694131,0.00074719684,0.00018257464,0.000067866284,0.000044081426,0.00008003854,0.00020296384],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982018,0.000017345634,0.0006838137,0.00048511566,0.00029969998,0.00031223972],"domain_scores_gemma":[0.9985632,0.00016485974,0.0004091585,0.00058038905,0.00012421359,0.00015820788],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015583196,0.00028273632,0.000632793,0.000024306817,0.00006433687,0.000038609633,0.00045694792,0.00035401416,0.01007662],"category_scores_gemma":[0.0006568275,0.00026499803,0.000114861476,0.00026587452,0.00008834475,0.00016127137,0.0001419298,0.000272558,0.00015746072],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037186455,0.00007703055,0.0000054098687,0.00014734727,0.00007960093,0.0000010922938,0.00016386976,0.000024100427,0.9963275,0.0020815663,0.00020325938,0.00085203565],"study_design_scores_gemma":[0.0003579295,0.000015325339,0.00002561735,0.000102188285,0.00007654985,0.0000023899202,0.00026681306,0.000013107335,0.98422164,0.0012565808,0.013392346,0.00026953156],"about_ca_topic_score_codex":0.000013647872,"about_ca_topic_score_gemma":5.926186e-7,"teacher_disagreement_score":0.013189087,"about_ca_system_score_codex":0.00003678556,"about_ca_system_score_gemma":0.00005828689,"threshold_uncertainty_score":0.9999802},"labels":[],"label_agreement":null},{"id":"W3024064065","doi":"10.1002/adma.202001534","title":"Embedded Metal Oxide Plasmonics Using Local Plasma Oxidation of AZO for Planar Metasurfaces","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metamaterials and Metasurfaces Applications","field":"Materials Science","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Defence and Security Accelerator; Engineering and Physical Sciences Research Council; Defence Science and Technology Laboratory; China Scholarship Council; University of Southampton; Trent University; Nottingham Trent University","keywords":"Materials science; Planar; Optoelectronics; Plasmon; Photonics; Infrared; Oxide; Optics; Reflector (photography); Anti-reflective coating; Nanotechnology; Layer (electronics); Computer science","score_opus":0.049479311362325806,"score_gpt":0.29512398659287226,"score_spread":0.24564467523054645,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3024064065","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9391707,0.0001471251,0.057645757,0.00013947126,0.00059695076,0.0009724559,0.0011840874,0.000112688795,0.000030737032],"genre_scores_gemma":[0.7722377,0.000042673306,0.22726248,0.0001262569,0.000048324746,0.00011402804,0.00010673324,0.000045845874,0.000015926338],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974152,0.00015271432,0.0010240785,0.0005763507,0.0004063044,0.0004253717],"domain_scores_gemma":[0.99824023,0.00017476978,0.00076602335,0.00039419046,0.00025868017,0.00016610228],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00096284784,0.00031348152,0.00089951913,0.000052391733,0.00016958766,0.00008655005,0.00040428468,0.00011832981,0.00045069735],"category_scores_gemma":[0.0003504607,0.00028277803,0.00011489036,0.00018003346,0.0001395098,0.00048032956,0.00008078044,0.000041132163,0.000085611355],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040953007,0.00003862457,0.0000018907513,0.00022192083,0.000043999407,9.4310707e-7,0.00014007527,0.008823506,0.98783237,0.0021950996,0.00007745677,0.00021455763],"study_design_scores_gemma":[0.0009384001,0.00012613053,0.000015172407,0.000030527535,0.00020624124,0.0000044996837,0.00019862781,0.000988076,0.9921056,0.0007721388,0.004321853,0.00029271498],"about_ca_topic_score_codex":0.000046929836,"about_ca_topic_score_gemma":0.0000055042033,"teacher_disagreement_score":0.16961673,"about_ca_system_score_codex":0.000046227036,"about_ca_system_score_gemma":0.00009992418,"threshold_uncertainty_score":0.99996245},"labels":[],"label_agreement":null},{"id":"W3024745121","doi":"10.1002/adma.201902177","title":"Metal‐Free Hydrogen‐Bonded Polymers Mimic Noble Metal Electrocatalysts","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":33,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Austrian Science Fund","keywords":"Overpotential; Electrocatalyst; Materials science; Platinum; Electrochemistry; Hydrogen; Polymer; Electrolysis; Catalysis; Chemical engineering; Electrolysis of water; Inorganic chemistry; Noble metal; Metal; Combinatorial chemistry; Electrode; Chemistry; Organic chemistry; Physical chemistry; Composite material","score_opus":0.009567480557719452,"score_gpt":0.21725213805974866,"score_spread":0.20768465750202922,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3024745121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9881584,0.0010064753,0.00014449668,0.0013190539,0.00056412147,0.0003314853,0.000027077025,0.0007767672,0.0076720985],"genre_scores_gemma":[0.99540037,0.00010463973,0.0010638786,0.0014391565,0.0002901758,0.00008065845,0.00035796073,0.00015686119,0.0011063288],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99658465,0.0001491203,0.0006834255,0.0008750393,0.00075474865,0.0009529916],"domain_scores_gemma":[0.9982237,0.00006164346,0.00031917976,0.0009072563,0.00014767819,0.0003405123],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0002894841,0.0005406821,0.00083155977,0.00015039058,0.00017536647,0.000058650894,0.00091066054,0.00019049388,0.0019758116],"category_scores_gemma":[0.00035472043,0.0005346808,0.0002441146,0.00060420885,0.00009170862,0.0007168065,0.0003010427,0.00016686946,0.0010159195],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033825415,0.0000419576,0.0000016643082,0.000050058075,0.00029045716,0.00004066079,0.00011235824,0.00031685072,0.9908731,0.0063679516,0.0004199296,0.0011467674],"study_design_scores_gemma":[0.0016032715,0.00027676535,0.000005466967,0.000014581643,0.00021425085,0.000031884978,0.000047355694,0.00002692009,0.9646103,0.0018879955,0.030711075,0.00057014544],"about_ca_topic_score_codex":0.00045239547,"about_ca_topic_score_gemma":0.00015261036,"teacher_disagreement_score":0.030291148,"about_ca_system_score_codex":0.00024663462,"about_ca_system_score_gemma":0.00013541096,"threshold_uncertainty_score":0.9997619},"labels":[],"label_agreement":null},{"id":"W3030874311","doi":"10.1002/adma.202001300","title":"Ammonia Thermal Treatment toward Topological Defects in Porous Carbon for Enhanced Carbon Dioxide Electroreduction","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":243,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Natural Science Foundation of Zhejiang Province","keywords":"Materials science; Carbon dioxide; Porosity; Thermal treatment; Ammonia; Carbon fibers; Thermal; Electrochemical reduction of carbon dioxide; Chemical engineering; Porous medium; Ammonia production; Inorganic chemistry; Nanotechnology; Organic chemistry; Composite material; Catalysis; Carbon monoxide; Thermodynamics; Chemistry; Composite number","score_opus":0.018034957411929814,"score_gpt":0.265751151696219,"score_spread":0.24771619428428918,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3030874311","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99682987,0.00017450015,0.00008283833,0.00046013427,0.0003952794,0.0006627948,0.000010803386,0.00031638372,0.0010673827],"genre_scores_gemma":[0.9976653,0.0001533394,0.00082549476,0.00009795198,0.00036971443,0.0007120305,0.000052481602,0.00003968274,0.00008401696],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986265,0.000068178,0.00036126762,0.0004420462,0.00012471825,0.00037731268],"domain_scores_gemma":[0.99952567,0.000025821704,0.00012880893,0.00019148689,0.00004769058,0.00008050862],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008863019,0.00024106681,0.0004263152,0.000050281356,0.00003324692,0.000019478539,0.000105266634,0.00013289208,0.00004945788],"category_scores_gemma":[0.00007175408,0.00020814796,0.000072750496,0.000138295,0.0000336503,0.0000749452,0.00002816781,0.000053012624,0.0000034533634],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006578295,0.00007468609,0.000007962264,0.000024872264,0.000018828243,0.000007527521,0.00029364062,0.00028731,0.986138,0.000968806,0.000002217718,0.011518328],"study_design_scores_gemma":[0.00085683906,0.00089554925,0.00019031447,0.000012208026,0.00002713217,0.000006481071,0.00010087466,0.000009919641,0.99488074,0.0018427366,0.00095131795,0.00022588337],"about_ca_topic_score_codex":0.0010657358,"about_ca_topic_score_gemma":0.000104009036,"teacher_disagreement_score":0.011292445,"about_ca_system_score_codex":0.00031630587,"about_ca_system_score_gemma":0.00003815457,"threshold_uncertainty_score":0.84880275},"labels":[],"label_agreement":null},{"id":"W3030905923","doi":"10.1002/adma.202001429","title":"Confinement of Dyes inside Boron Nitride Nanotubes: Photostable and Shifted Fluorescence down to the Near Infrared","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Luminescence and Fluorescent Materials","field":"Materials Science","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Polytechnique Montréal","funders":"H2020 Marie Skłodowska-Curie Actions; Natural Sciences and Engineering Research Council of Canada; H2020 European Research Council; Graphene Flagship; Centre National de la Recherche Scientifique; Ligue Contre le Cancer; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; Fondation du cancer du sein du Québec; Institut National de la Santé et de la Recherche Médicale; McGill University; Université Paris Diderot; Canada Research Chairs; Agence Nationale de la Recherche","keywords":"Fluorescence; Boron nitride; Photochemistry; Nanotechnology; Passivation; Materials science; Picosecond; Daphnia pulex; Photobleaching; Chemistry; Daphnia","score_opus":0.012349787115844633,"score_gpt":0.2317779587877474,"score_spread":0.21942817167190276,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3030905923","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99553293,0.00022454809,0.00012628768,0.0015118553,0.00073412224,0.0011741904,0.00041694005,0.0001240336,0.0001550982],"genre_scores_gemma":[0.98873305,0.0001726816,0.008676733,0.0019533162,0.00018391883,0.00013363798,0.000031626943,0.000039913426,0.000075130476],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974196,0.00016914187,0.00078618166,0.0005850263,0.00050313846,0.0005368935],"domain_scores_gemma":[0.99860173,0.00011187819,0.0003089129,0.00052165514,0.0002235606,0.00023227598],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006594688,0.00033689706,0.00066015025,0.00004678442,0.00022365298,0.0002906232,0.00055273424,0.000087837165,0.0015696337],"category_scores_gemma":[0.00070672494,0.00024054381,0.000043646676,0.00022559406,0.00024288306,0.0004233415,0.00039233518,0.000058083708,0.00025846588],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006078385,0.00003411748,0.00007032064,0.00019355322,0.000010598111,0.000008472971,0.001562435,0.000046233476,0.99498165,0.00024089443,0.0017432518,0.00050066086],"study_design_scores_gemma":[0.00078450906,0.00028631618,0.000675957,0.00016790126,0.000029017045,0.0000041501326,0.00031623026,0.000016227432,0.9834873,0.00012693089,0.013812104,0.00029337083],"about_ca_topic_score_codex":0.00024208144,"about_ca_topic_score_gemma":0.0000183356,"teacher_disagreement_score":0.012068853,"about_ca_system_score_codex":0.000035367448,"about_ca_system_score_gemma":0.00012103486,"threshold_uncertainty_score":0.99934304},"labels":[],"label_agreement":null},{"id":"W3034528524","doi":"10.1002/adma.202001085","title":"Plant Nanomaterials and Inspiration from Nature: Water Interactions and Hierarchically Structured Hydrogels","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":244,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"European Research Council; École Polytechnique Fédérale de Lausanne; Aalto-Yliopisto; European Commission; Canada Excellence Research Chairs, Government of Canada; Canada Foundation for Innovation","keywords":"Self-healing hydrogels; Nanomaterials; Materials science; Nanotechnology; Biomimetics; Ionic bonding; Nanostructure; Chemical engineering; Chemistry; Organic chemistry; Polymer chemistry; Engineering","score_opus":0.019218302776246844,"score_gpt":0.2967265852250323,"score_spread":0.27750828244878545,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3034528524","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.279674,0.71283954,0.00016683462,0.000073582014,0.0024668225,0.0011286993,0.0034058173,0.00022017227,0.000024555166],"genre_scores_gemma":[0.03344005,0.96027505,0.0039883396,0.00010060104,0.00042964992,0.00019698637,0.0014612015,0.00008653904,0.000021561516],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9975453,0.0003357449,0.00083656266,0.00074571057,0.00021435093,0.00032233048],"domain_scores_gemma":[0.99895865,0.00017633871,0.00031532024,0.00033613306,0.000053194173,0.000160345],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024650834,0.0004551164,0.0013239152,0.00009030452,0.00020178052,0.00040437223,0.00018812536,0.0003199108,0.00054672186],"category_scores_gemma":[0.00018469672,0.00030879432,0.000059477872,0.000076178854,0.00010609256,0.00042612845,0.00028811453,0.00017553782,0.000077909375],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000053427117,0.00001324351,3.4610005e-7,0.0018309659,0.000029169953,0.000015597841,0.00019841667,0.0000020365621,0.88752884,0.0002531581,0.00002006687,0.11005471],"study_design_scores_gemma":[0.00024318577,0.000055151322,0.0000042165057,0.0013499035,0.00018455231,0.000052497475,0.0000066364005,0.0000041589005,0.29558796,0.0011170112,0.70100856,0.00038618877],"about_ca_topic_score_codex":0.000024228615,"about_ca_topic_score_gemma":0.000018269775,"teacher_disagreement_score":0.7009885,"about_ca_system_score_codex":0.0000617879,"about_ca_system_score_gemma":0.000056265384,"threshold_uncertainty_score":0.9999364},"labels":[],"label_agreement":null},{"id":"W3037279968","doi":"10.1002/adma.202002403","title":"Consolidating Lithiothermic‐Ready Transition Metals for Li<sub>2</sub>S‐Based Cathodes","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":94,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Office of Energy Efficiency; Natural Sciences and Engineering Research Council of Canada; Basic Energy Sciences; Division of Chemical, Bioengineering, Environmental, and Transport Systems; Office of Science; National Science Foundation; Beijing Institute of Technology; University of Waterloo; Argonne National Laboratory; Office of Energy Efficiency and Renewable Energy; U.S. Department of Energy; University of Chicago","keywords":"Materials science; Cathode; Transition metal; Nanotechnology; Engineering physics; Inorganic chemistry; Physical chemistry; Catalysis; Organic chemistry","score_opus":0.024685475947469237,"score_gpt":0.2604385511402078,"score_spread":0.23575307519273858,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3037279968","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.733098,0.000120454635,0.26249087,0.00025108873,0.0010123742,0.0010513527,0.0010526736,0.0007976376,0.00012557958],"genre_scores_gemma":[0.9619127,0.000046781974,0.035162985,0.0015490176,0.00037300368,0.0005010103,0.0002835816,0.00016681857,0.0000041342832],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981613,0.00008477019,0.0006837393,0.00039943188,0.00019680178,0.0004739113],"domain_scores_gemma":[0.99917513,0.00018602486,0.0001499861,0.0002752943,0.00009828466,0.00011527452],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003273134,0.0003714891,0.0006200955,0.000056904493,0.00009730228,0.00010562481,0.00019652047,0.00011319146,0.00017532839],"category_scores_gemma":[0.00018396143,0.00039522923,0.00005455184,0.00010209376,0.000050130235,0.00045691783,0.000022743483,0.000060173978,0.00008921474],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013118998,0.00001614245,4.0294879e-7,0.0006223204,0.000040016243,0.000003914943,0.00024466796,0.046706058,0.9502365,0.000165911,0.00019034561,0.0016425557],"study_design_scores_gemma":[0.0011416915,0.00010420575,0.0000060120915,0.0000984938,0.000059129667,0.0000029421922,0.000049358954,0.0013702676,0.99417245,0.0005652286,0.0019979875,0.0004322243],"about_ca_topic_score_codex":0.00000133424,"about_ca_topic_score_gemma":7.887907e-7,"teacher_disagreement_score":0.22881469,"about_ca_system_score_codex":0.00008525631,"about_ca_system_score_gemma":0.000023894332,"threshold_uncertainty_score":0.99985},"labels":[],"label_agreement":null},{"id":"W3037943471","doi":"10.1002/adma.202002297","title":"Boosting Neutral Water Oxidation through Surface Oxygen Modulation","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":148,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Beijing Synchrotron Radiation Facility; Program for Professor of Special Appointment (Eastern Scholar) at Shanghai Institutions of Higher Learning; E-Institutes of Shanghai Municipal Education Commission; Science and Technology Commission of Shanghai Municipality; National Natural Science Foundation of China; Ministry of Science and Technology of the People's Republic of China; Canadian Light Source","keywords":"Oxygen evolution; Overpotential; Inorganic chemistry; Electrochemistry; Catalysis; Materials science; Oxide; Electrolyte; Electrolysis; Bulk electrolysis; Electrolysis of water; Adsorption; Photochemistry; Chemistry; Electrode; Physical chemistry","score_opus":0.01693136567656708,"score_gpt":0.23516386149613425,"score_spread":0.21823249581956716,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3037943471","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99439585,0.000023375665,0.0018567209,0.0010043737,0.0003661889,0.00014749957,0.0000025222355,0.00031962775,0.0018838531],"genre_scores_gemma":[0.99400115,0.00001981621,0.004494735,0.00062993245,0.0002305292,0.000009542728,0.00036860735,0.00005140438,0.00019427553],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986501,0.00007112749,0.00032824726,0.00035703616,0.00023463734,0.00035888425],"domain_scores_gemma":[0.9994774,0.000023085322,0.00010537452,0.00020783396,0.000121380435,0.00006495676],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015155264,0.00018832543,0.000232496,0.00001742618,0.00011495582,0.00004977258,0.00015046271,0.00008904757,0.00038105436],"category_scores_gemma":[0.00008172226,0.00016102867,0.000042384858,0.00010565893,0.000019299985,0.00083242846,0.00007423885,0.000054661847,0.0004460347],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011215497,0.0000073356323,0.000006138752,0.000027816499,0.000015863565,0.0000035565922,0.00039299956,0.06956817,0.9258475,0.0033078415,0.000071902636,0.00063872506],"study_design_scores_gemma":[0.0004943379,0.00006548849,0.00007620988,0.000012949111,0.000016197739,0.0000024378937,0.000031710188,0.00040550364,0.9847606,0.0023705345,0.011551257,0.00021281006],"about_ca_topic_score_codex":0.00027645484,"about_ca_topic_score_gemma":0.000024966797,"teacher_disagreement_score":0.06916267,"about_ca_system_score_codex":0.0001092538,"about_ca_system_score_gemma":0.000015727986,"threshold_uncertainty_score":0.65665585},"labels":[],"label_agreement":null},{"id":"W3039497964","doi":"10.1002/adma.202002550","title":"Temperature‐Dependent Chemical and Physical Microstructure of Li Metal Anodes Revealed through Synchrotron‐Based Imaging Techniques","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation; University of Saskatchewan","keywords":"Materials science; Anode; Electrolyte; Electrochemistry; Synchrotron; Characterization (materials science); Microstructure; Metal; Faraday efficiency; Electrode; Chemical engineering; Alloy; Analytical Chemistry (journal); Nanotechnology; Metallurgy; Physical chemistry; Optics; Chemistry","score_opus":0.006757936097369824,"score_gpt":0.24183042841848773,"score_spread":0.2350724923211179,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3039497964","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966512,0.00034759933,0.0012386704,0.00015401434,0.00029944564,0.000471708,0.0003478534,0.00041656857,0.00007297543],"genre_scores_gemma":[0.9674888,0.000056267196,0.03162093,0.00037583217,0.0002519608,0.00007056714,0.00005182547,0.00007973711,0.000004078298],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986039,0.000048165788,0.0004518659,0.00036619478,0.0002219129,0.0003080077],"domain_scores_gemma":[0.9994411,0.000044083023,0.00012167164,0.0002625912,0.000063334526,0.0000672355],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00008834767,0.00034214742,0.00065847393,0.000029329045,0.00003185944,0.000054309192,0.00019959212,0.00008157765,0.00011458271],"category_scores_gemma":[0.00007299037,0.00031831287,0.00003923739,0.000086303255,0.00012649676,0.00040341046,0.00011030648,0.0001058962,0.000005241725],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009027274,0.000015902393,0.000013289514,0.0004842173,0.000029042814,0.000008910709,0.00018949504,0.0003173949,0.99811167,0.000068353555,0.00010480467,0.0005666679],"study_design_scores_gemma":[0.0005237853,0.000041790205,0.00003505377,0.00010610141,0.00004013402,0.000009960159,0.000033770288,0.000035959503,0.99749506,0.00087562203,0.00049609883,0.00030665344],"about_ca_topic_score_codex":0.0000015984974,"about_ca_topic_score_gemma":8.628146e-8,"teacher_disagreement_score":0.03038226,"about_ca_system_score_codex":0.000053140826,"about_ca_system_score_gemma":0.000013170088,"threshold_uncertainty_score":0.99992687},"labels":[],"label_agreement":null},{"id":"W3040734281","doi":"10.1002/adma.202070206","title":"Carbon‐Based Nanocages: Carbon‐Based Nanocages: A New Platform for Advanced Energy Storage and Conversion (Adv. Mater. 27/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"","keywords":"Nanocages; Materials science; Nanotechnology; Fullerene; Graphene; Carbon fibers; Carbon nanotube; Nanomaterials; Energy storage; Energy transformation; Composite material; Composite number; Catalysis; Organic chemistry; Chemistry","score_opus":0.01735567288225405,"score_gpt":0.2347190962550257,"score_spread":0.21736342337277165,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3040734281","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9899256,0.0004535666,0.0030985672,0.000832896,0.0033193792,0.0011585008,0.00051167025,0.0005236744,0.00017611276],"genre_scores_gemma":[0.9829443,0.00012579159,0.013493937,0.0019156097,0.00064704916,0.00030278266,0.00025080657,0.00015543692,0.00016425044],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9961399,0.00016255605,0.0009960337,0.0012540155,0.0005756492,0.00087186234],"domain_scores_gemma":[0.9977905,0.0002521592,0.0005248606,0.00067618367,0.00024733972,0.0005089421],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005073985,0.0007043569,0.001055329,0.00012136174,0.00024790558,0.00032221733,0.0005210048,0.00030429236,0.00060475647],"category_scores_gemma":[0.0002920761,0.00066927413,0.00012280588,0.00026438403,0.00019168358,0.000651641,0.00015998978,0.000080476115,0.000035160017],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016711848,0.00005026077,0.000022719241,0.000476163,0.000015832744,0.000019320143,0.00035667335,0.0004269065,0.9957312,0.000245071,0.0003444137,0.0006402859],"study_design_scores_gemma":[0.0045558643,0.0006578756,0.00006414913,0.00016744723,0.00008505805,0.0000074645327,0.00029914695,0.00113382,0.98000574,0.0003526779,0.011862904,0.0008078286],"about_ca_topic_score_codex":0.0003774506,"about_ca_topic_score_gemma":0.000017734954,"teacher_disagreement_score":0.015725404,"about_ca_system_score_codex":0.00020972772,"about_ca_system_score_gemma":0.00029873542,"threshold_uncertainty_score":0.99957585},"labels":[],"label_agreement":null},{"id":"W3040858198","doi":"10.1002/adma.202003082","title":"A Promoted Charge Separation/Transfer System from Cu Single Atoms and C<sub>3</sub>N<sub>4</sub> Layers for Efficient Photocatalysis","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Photocatalysis Techniques","field":"Energy","cited_by":526,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Materials science; Photocatalysis; Carbon nitride; Catalysis; Selectivity; Melamine; Copper; Nitride; Photochemistry; Nanotechnology; Organic chemistry; Composite material; Chemistry","score_opus":0.01461945156804054,"score_gpt":0.24788398071579737,"score_spread":0.23326452914775683,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3040858198","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9403231,0.00016720379,0.05364594,0.00009426641,0.0002599074,0.003208992,0.0010207163,0.0011596734,0.000120205485],"genre_scores_gemma":[0.99094635,0.000070334405,0.0045268275,0.00027330747,0.00023310671,0.0024769385,0.0012646794,0.00020194735,0.0000065112167],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99624294,0.00016570101,0.0011051978,0.0012854936,0.0004894219,0.0007112594],"domain_scores_gemma":[0.9981284,0.00018802301,0.00033741666,0.00074220885,0.00028792463,0.00031600584],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003267745,0.0006792326,0.0011957933,0.00015751502,0.00026418053,0.00016753734,0.00035666133,0.00028541032,0.000036504403],"category_scores_gemma":[0.00017806617,0.00068267126,0.0002225914,0.00050774764,0.00012681418,0.0004337443,0.0001293898,0.00013431339,0.00013742925],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007918348,0.00012612154,0.0000028242957,0.000365864,0.00020221222,0.000014660856,0.0006844174,0.0012978273,0.9924118,0.0006985168,0.000068934314,0.003335005],"study_design_scores_gemma":[0.00162083,0.00027062316,0.000013661309,0.00019666334,0.00028217986,0.0000068941686,0.00014972412,0.0017082421,0.99268174,0.00043606263,0.0018919418,0.0007414645],"about_ca_topic_score_codex":0.00007564706,"about_ca_topic_score_gemma":0.0000750273,"teacher_disagreement_score":0.050623253,"about_ca_system_score_codex":0.0002866245,"about_ca_system_score_gemma":0.00005504112,"threshold_uncertainty_score":0.99956244},"labels":[],"label_agreement":null},{"id":"W3040981833","doi":"10.1002/adma.202002910","title":"Single‐Atom Catalysts Supported by Crystalline Porous Materials: Views from the Inside","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":123,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Key Research and Development Program of China; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China; Canadian Light Source; Higher Education Discipline Innovation Project; U.S. Department of Energy","keywords":"X-ray absorption spectroscopy; Materials science; Catalysis; Nanotechnology; Extended X-ray absorption fine structure; X-ray absorption fine structure; Absorption (acoustics); Atom (system on chip); Absorption spectroscopy; XANES; Porous medium; Synchrotron; Electronic structure; Porosity; Spectroscopy; Chemical engineering; Chemical physics; Chemistry; Optics; Organic chemistry; Computational chemistry; Composite material; Physics; Computer science","score_opus":0.04167609275657141,"score_gpt":0.3000016271651382,"score_spread":0.25832553440856676,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3040981833","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0010826855,0.9808425,0.0001599997,0.0002967341,0.0005364288,0.0010390372,0.015141645,0.00031772634,0.0005832608],"genre_scores_gemma":[0.00076670066,0.98107773,0.001617615,0.0002997598,0.0012034866,0.0009960969,0.013094387,0.00033274796,0.0006114509],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9950421,0.0002799433,0.0023411084,0.0012339279,0.0005053682,0.000597596],"domain_scores_gemma":[0.9949423,0.0007842984,0.0019604394,0.0019919714,0.000101805614,0.00021920305],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00043597035,0.0010757828,0.0036640386,0.000035451983,0.00020947054,0.00038199144,0.0013705329,0.0007680114,0.014067553],"category_scores_gemma":[0.0005638138,0.0007426217,0.00035451108,0.00028020472,0.00013112235,0.00016048801,0.0003946939,0.00038076311,0.0008733494],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014436192,0.000095627445,3.4063206e-8,0.0026667898,0.0002845555,0.000021406908,0.00003999191,8.828099e-8,0.7525921,0.000084636114,0.00857556,0.23562478],"study_design_scores_gemma":[0.00012572156,0.0000069107514,6.359446e-8,0.0029002503,0.00074175315,0.000018661522,0.000021179307,3.8488608e-8,0.3622063,0.00020301931,0.63329184,0.00048429126],"about_ca_topic_score_codex":0.00012840489,"about_ca_topic_score_gemma":0.000016516402,"teacher_disagreement_score":0.6247163,"about_ca_system_score_codex":0.00022446079,"about_ca_system_score_gemma":0.00022025518,"threshold_uncertainty_score":0.9999046},"labels":[],"label_agreement":null},{"id":"W3046308230","doi":"10.1002/adma.202003020","title":"Effect of Adventitious Carbon on Pit Formation of Monolayer MoS<sub>2</sub>","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Kwanjeong Educational Foundation; National Research Foundation of Korea","keywords":"Monolayer; Molybdenum disulfide; Materials science; Sulfur; Transmission electron microscopy; Oxygen; Catalysis; Adsorption; Density functional theory; Molybdenum; Carbon fibers; Nanoparticle; Chemical engineering; Nanotechnology; Physical chemistry; Chemistry; Computational chemistry; Organic chemistry; Metallurgy; Composite material","score_opus":0.007470436549757133,"score_gpt":0.23991887856710606,"score_spread":0.23244844201734893,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3046308230","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99796456,0.00003284743,0.00029699522,0.000113613336,0.000364714,0.0006511159,0.00016714146,0.000093117946,0.00031589763],"genre_scores_gemma":[0.9991762,0.00005194153,0.0003847662,0.00008232043,0.000098551056,0.00014607377,0.00002855399,0.000028780776,0.0000028235822],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99840796,0.00015068996,0.0006429181,0.00028032658,0.00029194733,0.0002261318],"domain_scores_gemma":[0.99890065,0.000092338094,0.00050859636,0.00031342733,0.00010897453,0.00007600308],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004294334,0.00019895322,0.0005238491,0.00004743978,0.000047311372,0.000028749802,0.00021920165,0.00007659978,0.00012101497],"category_scores_gemma":[0.00015154842,0.00017126683,0.000060998987,0.00013081278,0.000046683468,0.00022994929,0.00007576962,0.000033068598,0.00010147685],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040955952,0.000037142247,0.0000026238613,0.0004759706,0.0000045435827,0.0000010693641,0.00012162006,0.00036618477,0.9971138,0.00059070275,0.000046640074,0.000830104],"study_design_scores_gemma":[0.00070332247,0.00076973205,0.00004913705,0.000094119496,0.000034011424,0.0000016179126,0.000013049163,0.000026671307,0.9975856,0.00044465283,0.0001294569,0.00014861125],"about_ca_topic_score_codex":0.00002237186,"about_ca_topic_score_gemma":0.0000015229292,"teacher_disagreement_score":0.0012116316,"about_ca_system_score_codex":0.00003083664,"about_ca_system_score_gemma":0.00001985082,"threshold_uncertainty_score":0.6984059},"labels":[],"label_agreement":null},{"id":"W3047673598","doi":"10.1002/adma.202002753","title":"3D Microstructures of Liquid Crystal Networks with Programmed Voxelated Director Fields","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"European Research Council; Natural Sciences and Engineering Research Council of Canada; Max-Planck-Gesellschaft; Alexander von Humboldt-Stiftung","keywords":"Microscale chemistry; Materials science; Microstructure; Voxel; Fabrication; Nanotechnology; Liquid crystal; Planar; Optics; Computer science; Optoelectronics; Composite material; Artificial intelligence; Computer graphics (images); Physics","score_opus":0.004907673273235714,"score_gpt":0.1896727571952825,"score_spread":0.1847650839220468,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3047673598","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95479673,0.00037044255,0.042800844,0.000039832623,0.0008081139,0.00044785708,0.00010607025,0.0005202301,0.00010985921],"genre_scores_gemma":[0.9761345,0.00019252251,0.023217732,0.0000997669,0.00017306885,0.000044748514,0.00005371121,0.00007418066,0.000009801097],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989448,0.000019891088,0.00035921982,0.00021710581,0.00012861623,0.0003303592],"domain_scores_gemma":[0.99950385,0.000021270267,0.00010315507,0.00018516045,0.00007511867,0.00011142859],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005625162,0.00024288728,0.00044098444,0.000022741784,0.000031365333,0.000028363998,0.00013750732,0.00012779864,0.00016408652],"category_scores_gemma":[0.000034163608,0.00020216734,0.000031382875,0.0001277344,0.00003370621,0.00014313505,0.000041495186,0.00007789447,0.0000029520927],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005626983,0.0000074299896,0.0000010348818,0.00019670218,0.000038774197,0.000009123602,0.000106552594,0.05277452,0.9448021,0.00008712922,0.00006993184,0.0013439798],"study_design_scores_gemma":[0.00065942365,0.0004124598,0.000011722172,0.00006502656,0.00002649022,0.0000070977594,0.000021571592,0.0005117512,0.9919504,0.00006189847,0.0060120015,0.00026017582],"about_ca_topic_score_codex":0.0000045591983,"about_ca_topic_score_gemma":0.0000038477956,"teacher_disagreement_score":0.05226277,"about_ca_system_score_codex":0.000019856941,"about_ca_system_score_gemma":0.000013653978,"threshold_uncertainty_score":0.8244145},"labels":[],"label_agreement":null},{"id":"W3049250939","doi":"10.1002/adma.202002315","title":"Enabling High‐Performance Tandem Organic Photovoltaic Cells by Balancing the Front and Rear Subcells","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Air Force Office of Scientific Research; National Natural Science Foundation of China; California Energy Commission","keywords":"Materials science; Tandem; Optoelectronics; Organic solar cell; Photovoltaic system; Open-circuit voltage; Band gap; Energy conversion efficiency; Photovoltaics; Exciton; Absorption (acoustics); Voltage; Short circuit; Polymer; Electrical engineering; Composite material","score_opus":0.0038348788216824524,"score_gpt":0.16735114012150443,"score_spread":0.16351626129982197,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3049250939","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966986,0.0016895145,0.00037521066,0.000084269675,0.0004706368,0.000287111,0.000049392253,0.00024448952,0.000100753176],"genre_scores_gemma":[0.99472374,0.0042527774,0.000254649,0.00040746108,0.00016601889,0.000017272623,0.000017342352,0.00008375038,0.00007696557],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99880743,0.000026364713,0.00030776957,0.0002593132,0.00017319318,0.0004259279],"domain_scores_gemma":[0.9995077,0.00006108416,0.00006510193,0.00022494048,0.000034409204,0.000106721316],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021473764,0.00023979551,0.00030523725,0.00001708667,0.00013025402,0.000093431845,0.00019468494,0.000087048094,0.00035369638],"category_scores_gemma":[0.000026571583,0.00019445403,0.00001980623,0.00012408425,0.00002866857,0.00017446157,0.00006366559,0.00017065484,0.00008144537],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000127887815,0.0000038084283,0.000022482642,0.00009414928,0.000021341906,0.0000019893423,0.00022434111,0.00045628232,0.99758995,0.000011206658,0.0013446613,0.00021701325],"study_design_scores_gemma":[0.00036613338,0.000074584874,0.000039318795,0.0000267837,0.000020498748,0.000003503731,0.000041806106,0.00074404926,0.98057824,0.00008883925,0.017772254,0.00024396667],"about_ca_topic_score_codex":0.000021357495,"about_ca_topic_score_gemma":0.000007191546,"teacher_disagreement_score":0.017011672,"about_ca_system_score_codex":0.000078118115,"about_ca_system_score_gemma":0.000025465712,"threshold_uncertainty_score":0.7929605},"labels":[],"label_agreement":null},{"id":"W3049258911","doi":"10.1002/adma.202002404","title":"Nanocellulose in Emulsions and Heterogeneous Water‐Based Polymer Systems: A Review","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":230,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; University of Ottawa; University of Calgary","funders":"Ontario Ministry of Research and Innovation; McMaster University; Natural Sciences and Engineering Research Council of Canada; University of British Columbia; Canada Research Chairs; University of Ottawa","keywords":"Nanocellulose; Materials science; Emulsion; Polymer; Cellulose; Nanotechnology; Emulsion polymerization; Bacterial cellulose; Adhesive; Nanocomposite; Chemical engineering; Thermal stability; Composite material; Polymerization","score_opus":0.040387105182755866,"score_gpt":0.34189034503213356,"score_spread":0.3015032398493777,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3049258911","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00020391335,0.9942483,0.00004167564,0.00011964032,0.0008404743,0.003563461,0.0007132231,0.00019831247,0.00007103846],"genre_scores_gemma":[0.00023524142,0.9963931,0.00044136055,0.00016556676,0.00017496452,0.0019944466,0.00019761578,0.00018463246,0.00021311006],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9934624,0.0011186727,0.0019619446,0.0014691149,0.0007442697,0.0012436054],"domain_scores_gemma":[0.99756026,0.00042459884,0.0005991591,0.00092009397,0.00014130793,0.00035459877],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010170315,0.001078239,0.0050528916,0.0002676848,0.00020651669,0.00017784168,0.0007039434,0.00028379261,0.0005345623],"category_scores_gemma":[0.00049548195,0.0007246096,0.00025785415,0.00037122876,0.0002666056,0.000284213,0.0007935155,0.0003067162,0.00085296645],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007603306,0.00013859716,1.1575693e-7,0.38288364,0.00010315983,0.0013782092,0.000081968275,0.00002771745,0.4213837,0.00011924118,0.00022013606,0.19358748],"study_design_scores_gemma":[0.00039671105,0.00011299811,2.5583091e-8,0.08067981,0.0002894847,0.000104500556,0.000010909019,0.0000017381104,0.105108246,0.00003551756,0.8124426,0.0008174498],"about_ca_topic_score_codex":0.00003991215,"about_ca_topic_score_gemma":0.000006131284,"teacher_disagreement_score":0.8122225,"about_ca_system_score_codex":0.00037994894,"about_ca_system_score_gemma":0.0002504125,"threshold_uncertainty_score":0.99992496},"labels":[],"label_agreement":null},{"id":"W3080898383","doi":"10.1002/adma.202002585","title":"Superior Carrier Lifetimes Exceeding 6 µs in Polycrystalline Halide Perovskites","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":205,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Halide; Crystallite; Perovskite (structure); Optoelectronics; Chemical engineering; Inorganic chemistry; Metallurgy","score_opus":0.010342374038646596,"score_gpt":0.21426907351972166,"score_spread":0.20392669948107506,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3080898383","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99691236,0.000339216,0.00040080858,0.0004865716,0.00031157123,0.00026596553,0.00028521524,0.00041047006,0.00058779895],"genre_scores_gemma":[0.9966692,0.00020757958,0.0022252665,0.00023658044,0.00036410944,0.00013418801,0.000056963425,0.00006789892,0.00003826487],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99882376,0.00001871545,0.00042956564,0.00025945812,0.0001327318,0.00033574222],"domain_scores_gemma":[0.9995968,0.000031629843,0.000036830705,0.00017158421,0.000030706335,0.00013246384],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011122672,0.00022329397,0.00037165728,0.00005074065,0.000046737132,0.0001073146,0.00018002401,0.00007586089,0.00078221486],"category_scores_gemma":[0.00007444714,0.00022591047,0.0000349655,0.00016576026,0.000030789935,0.00025832624,0.000056578472,0.000062189836,0.000078914985],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020053742,0.000007699941,0.00007863726,0.00009633089,0.000008351599,0.0000047977037,0.00034425218,0.0026474562,0.995863,0.00024955356,0.000232526,0.00044731656],"study_design_scores_gemma":[0.0004719356,0.000027708344,0.0010048038,0.00005085167,0.000009572845,0.000003807686,0.00014987976,0.00027731067,0.9709816,0.00019711499,0.026506748,0.000318679],"about_ca_topic_score_codex":0.000024284542,"about_ca_topic_score_gemma":0.000011121144,"teacher_disagreement_score":0.026274223,"about_ca_system_score_codex":0.00004772386,"about_ca_system_score_gemma":0.000014358086,"threshold_uncertainty_score":0.92123616},"labels":[],"label_agreement":null},{"id":"W3081910084","doi":"10.1002/adma.202000231","title":"Lattice‐Strain Engineering of Homogeneous NiS<sub>0.5</sub>Se<sub>0.5</sub> Core–Shell Nanostructure as a Highly Efficient and Robust Electrocatalyst for Overall Water Splitting","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":228,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec","funders":"National Natural Science Foundation of China; China Association for Science and Technology","keywords":"Materials science; Nanostructure; Electrocatalyst; Homogeneous; Lattice (music); Nanotechnology; Strain engineering; Condensed matter physics; Chemical engineering; Physical chemistry; Electrochemistry; Optoelectronics; Thermodynamics; Electrode; Physics; Silicon","score_opus":0.008785265699320725,"score_gpt":0.20155959176066227,"score_spread":0.19277432606134154,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3081910084","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970125,0.00028899405,0.00095128396,0.0001728294,0.0004625875,0.0006625854,0.0001027441,0.00029153225,0.00005497025],"genre_scores_gemma":[0.99629796,0.00013377568,0.0020565526,0.00031039797,0.00031487615,0.000088553206,0.0005889388,0.00019750408,0.000011436173],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99650514,0.00005947175,0.0009025829,0.00094390917,0.0005083018,0.0010806207],"domain_scores_gemma":[0.9984301,0.00016297404,0.00034901086,0.00048196895,0.00028843194,0.00028755193],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003654581,0.0006583661,0.0009342532,0.00014891793,0.00018200354,0.000086472326,0.00036184865,0.00030612515,0.0000247035],"category_scores_gemma":[0.00034409645,0.00059710623,0.00018749035,0.00024263788,0.000083918465,0.00024455698,0.0002177617,0.00019454518,0.00003471467],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006197176,0.000035182784,0.000002033034,0.00056478835,0.00015517026,0.000037445352,0.0004532634,0.055181224,0.9385668,0.0026985204,0.000025846171,0.0016599948],"study_design_scores_gemma":[0.0018067948,0.00052262726,0.000033344477,0.00012603679,0.00017702817,0.000082467835,0.00004107771,0.0015691159,0.9934713,0.0005417076,0.0009509612,0.00067750184],"about_ca_topic_score_codex":0.000040532534,"about_ca_topic_score_gemma":0.000026592004,"teacher_disagreement_score":0.054904524,"about_ca_system_score_codex":0.00021119884,"about_ca_system_score_gemma":0.00008528981,"threshold_uncertainty_score":0.99964803},"labels":[],"label_agreement":null},{"id":"W3083015136","doi":"10.1002/adma.202104467","title":"Corrosion Resistance of Sulfur–Selenium Alloy Coatings","year":2021,"lang":"en","type":"preprint","venue":"Advanced Materials","topic":"High Entropy Alloys Studies","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; University of Toronto","funders":"National Science Foundation","keywords":"Corrosion; Materials science; Coating; Alloy; Metallurgy; Ductility (Earth science); Porosity; Sulfur; Composite material; Creep","score_opus":0.00905774130605457,"score_gpt":0.22924839224655688,"score_spread":0.2201906509405023,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3083015136","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98749363,0.00278833,0.0026042762,0.000045196233,0.0045653954,0.00047410696,0.00034568255,0.0005029145,0.001180479],"genre_scores_gemma":[0.978903,0.0027676937,0.017259562,0.000019963973,0.00015177396,0.00014621763,0.00018255813,0.00011407161,0.000455192],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99800473,0.00006392375,0.0007620965,0.00043658318,0.00035925675,0.00037342694],"domain_scores_gemma":[0.99863714,0.00008994652,0.00027365156,0.0006504121,0.00029184276,0.000056989575],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022375603,0.00041721505,0.00097644323,0.00007111634,0.0000495795,0.000057386012,0.0003123001,0.00024986186,0.00018138894],"category_scores_gemma":[0.0002108077,0.00045221928,0.00010253816,0.00010008055,0.00007017117,0.00011166758,0.0005025117,0.00021938163,0.00001729102],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000039029714,0.00001620376,0.00001452149,0.0019179635,0.000039824314,0.0000116538995,0.0003620462,0.012172728,0.98412526,0.00019897165,0.0010686017,0.00003319609],"study_design_scores_gemma":[0.0002886025,0.000013668592,0.00019856142,0.0010155514,0.00004929301,0.0000013178815,0.00009988609,0.000012667527,0.99355227,0.00030486123,0.004064019,0.00039929873],"about_ca_topic_score_codex":0.000016776905,"about_ca_topic_score_gemma":0.000068930276,"teacher_disagreement_score":0.014655286,"about_ca_system_score_codex":0.00016870532,"about_ca_system_score_gemma":0.000046858764,"threshold_uncertainty_score":0.99979293},"labels":[],"label_agreement":null},{"id":"W3086809700","doi":"10.1002/adma.202002266","title":"The Key Role of Intrinsic Lifetime Dynamics from Upconverting Nanosystems in Multiemission Particle Velocimetry","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Particle Dynamics in Fluid Flows","field":"Engineering","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Materials science; Key (lock); Particle (ecology); Velocimetry; Nanotechnology; Dynamics (music); Particle tracking velocimetry; Particle image velocimetry; Optics; Mechanics; Acoustics; Physics; Computer science","score_opus":0.0055098585922507964,"score_gpt":0.2025223919525392,"score_spread":0.1970125333602884,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3086809700","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978545,0.00065201905,0.00035339393,0.000083269486,0.00049077265,0.00022089978,0.000065953296,0.0001615355,0.00011768228],"genre_scores_gemma":[0.99840856,0.00009817158,0.0013108571,0.000025925945,0.0000701853,0.000026380061,0.000013190819,0.00004193759,0.000004822027],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99867094,0.000067646324,0.0006007298,0.0001859248,0.0001789246,0.00029586273],"domain_scores_gemma":[0.99932617,0.00020196941,0.00008759893,0.0002586072,0.00003931268,0.000086356544],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002480745,0.00015135872,0.00030462228,0.000019233714,0.000045526533,0.000033235967,0.00024133963,0.00007548929,0.000025732557],"category_scores_gemma":[0.0003932639,0.00013152602,0.000030747447,0.00019596674,0.00003556193,0.00015092494,0.0000909908,0.00009355593,0.000045190314],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006098965,0.000009734949,0.0011720926,0.000042951728,0.000017650682,0.000002977438,0.0006395788,0.016851235,0.9732764,0.0003385375,0.000007717898,0.007580144],"study_design_scores_gemma":[0.0003790654,0.0000144125515,0.0011679442,0.000052757503,0.0000054967913,3.4757676e-7,0.00024126192,0.38435978,0.61319834,0.0002614707,0.0002080508,0.00011105726],"about_ca_topic_score_codex":0.00005977779,"about_ca_topic_score_gemma":0.00003057819,"teacher_disagreement_score":0.36750853,"about_ca_system_score_codex":0.00012513615,"about_ca_system_score_gemma":0.000013960336,"threshold_uncertainty_score":0.5363475},"labels":[],"label_agreement":null},{"id":"W3087283828","doi":"10.1002/adma.202004247","title":"Liquid‐Metal Synthesized Ultrathin SnS Layers for High‐Performance Broadband Photodetectors","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":125,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Cancer Institute; Government of Western Australia; RMIT University; Australian National Fabrication Facility; Australian Government; Ontario Ministry of Natural Resources and Forestry; National Computational Infrastructure","keywords":"Materials science; Photodetector; Responsivity; Optoelectronics; Tin; Photodetection; Plasmon; Ultraviolet; Germanium; Nanotechnology; Silicon","score_opus":0.022134866914358963,"score_gpt":0.2312978583744058,"score_spread":0.20916299146004685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3087283828","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960399,0.00025693688,0.00043045302,0.00047024697,0.0012165096,0.00077662995,0.00034235758,0.00031360195,0.00015331141],"genre_scores_gemma":[0.99388397,0.00019164136,0.004396922,0.00066876283,0.00033729072,0.00032435945,0.000019604087,0.00007564009,0.00010180959],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99769324,0.00013854771,0.000635108,0.0006083778,0.0003430707,0.00058166374],"domain_scores_gemma":[0.9988347,0.0002515302,0.00027216534,0.00034268643,0.0001255453,0.00017336805],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006767584,0.00036047478,0.00069682597,0.00004420238,0.00026404322,0.0001720869,0.00044954362,0.00012112281,0.001799676],"category_scores_gemma":[0.0006882448,0.00028278114,0.00008883085,0.00011146134,0.00013779687,0.0006137023,0.00007420019,0.00006384648,0.00031631096],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0025244108,0.000027850725,0.0000025497047,0.00022957618,0.000016937689,0.0000025125328,0.0003361083,0.00015325505,0.9955077,0.000230847,0.0001755005,0.00079271727],"study_design_scores_gemma":[0.00082251744,0.00078212534,0.000036043333,0.00008117525,0.000041476553,0.0000033304507,0.000087636196,0.000046978083,0.9905244,0.00012570244,0.007023713,0.0004249196],"about_ca_topic_score_codex":0.000036611822,"about_ca_topic_score_gemma":0.000003218487,"teacher_disagreement_score":0.006848213,"about_ca_system_score_codex":0.000045572484,"about_ca_system_score_gemma":0.00007193854,"threshold_uncertainty_score":0.99996245},"labels":[],"label_agreement":null},{"id":"W3087579324","doi":"10.1002/adma.202003711","title":"The Experimentalist's Guide to the Cycloid, or Noncollinear Antiferromagnetism in Epitaxial BiFeO<sub>3</sub>","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Kensington Health; University of Calgary","funders":"European Regional Development Fund; Australian Research Council; Canada First Research Excellence Fund","keywords":"Bismuth ferrite; Multiferroics; Antiferromagnetism; Magnetism; Condensed matter physics; Cycloid; Materials science; Ferroelectricity; Ferromagnetism; Engineering physics; Nanotechnology; Physics; Optoelectronics","score_opus":0.025195654926444076,"score_gpt":0.343733501981032,"score_spread":0.3185378470545879,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3087579324","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.013439085,0.96301925,0.000038419843,0.00083469,0.013972775,0.006368752,0.0017037555,0.0002728734,0.0003503883],"genre_scores_gemma":[0.00036421872,0.9933104,0.0014868184,0.00035565355,0.0015128521,0.002084779,0.00015678132,0.0002603874,0.00046812958],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9922104,0.0012342933,0.0029469018,0.0014391084,0.000888974,0.001280325],"domain_scores_gemma":[0.99610084,0.0006944799,0.0011776842,0.0015405134,0.0001456094,0.00034088254],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0024857083,0.0012095999,0.003104952,0.00017900413,0.000695629,0.001014892,0.0022501475,0.0006059748,0.00066630583],"category_scores_gemma":[0.00096349185,0.0006061141,0.0003628002,0.00071216124,0.0002837551,0.00027889063,0.0010786823,0.0003679754,0.0031261363],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027827208,0.00006988507,2.6619315e-8,0.0015416158,0.000050482166,0.00022826101,0.00021981969,0.00003435059,0.84042275,0.00023386361,0.005384782,0.15153588],"study_design_scores_gemma":[0.0004547858,0.00016406462,7.581408e-7,0.0025991364,0.00012846377,0.00006929772,0.00006259931,0.000001499352,0.28946906,0.000038979564,0.70637697,0.0006343463],"about_ca_topic_score_codex":0.00016867027,"about_ca_topic_score_gemma":0.0001899826,"teacher_disagreement_score":0.7009922,"about_ca_system_score_codex":0.00046054952,"about_ca_system_score_gemma":0.00064822583,"threshold_uncertainty_score":0.99963903},"labels":[],"label_agreement":null},{"id":"W3087637521","doi":"10.1002/adma.202004657","title":"Monolithic Organic/Colloidal Quantum Dot Hybrid Tandem Solar Cells via Buffer Engineering","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Ministry of Science and ICT, South Korea; National Research Foundation of Korea; Ministry of Science, ICT and Future Planning","keywords":"Materials science; Tandem; Quantum dot; Absorption (acoustics); Energy conversion efficiency; Optoelectronics; Organic solar cell; Nanotechnology; Polymer","score_opus":0.006918603692852012,"score_gpt":0.18807036397167376,"score_spread":0.18115176027882174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3087637521","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9703801,0.00012538473,0.026705757,0.00016189742,0.0009927487,0.00036243233,0.00017489736,0.0009882865,0.00010845108],"genre_scores_gemma":[0.9965494,0.00017507488,0.0023738055,0.00017650393,0.0004391254,0.00010832107,0.0000420663,0.000119618,0.000016076794],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99862576,0.000018616185,0.00044466564,0.0003143763,0.00017077805,0.00042583005],"domain_scores_gemma":[0.9993903,0.00003158038,0.00005779885,0.00028732693,0.00004769297,0.00018528258],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012146451,0.00030710103,0.00042356324,0.00004203274,0.00007213953,0.00011885206,0.00025036867,0.00008609733,0.00061472243],"category_scores_gemma":[0.000034571007,0.00031889373,0.000049931794,0.00015054992,0.00001746964,0.0002210743,0.00007504121,0.00010351193,0.00047803603],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009792622,0.000010426659,0.0000018879741,0.00012129539,0.000024182025,0.0000073996384,0.00007838546,0.008727426,0.9902905,0.00017279026,0.00035180812,0.00020411237],"study_design_scores_gemma":[0.0003244571,0.000028843231,0.00008476339,0.000023480245,0.000020078443,0.0000070936817,0.000010308468,0.00242863,0.9743769,0.00020572764,0.022124516,0.00036520817],"about_ca_topic_score_codex":0.0000069013513,"about_ca_topic_score_gemma":9.2111753e-7,"teacher_disagreement_score":0.026169263,"about_ca_system_score_codex":0.0000704559,"about_ca_system_score_gemma":0.000015745563,"threshold_uncertainty_score":0.9999263},"labels":[],"label_agreement":null},{"id":"W3087729161","doi":"10.1002/adma.202003574","title":"Transparent Zinc‐Mesh Electrodes for Solar‐Charging Electrochromic Windows","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Transition Metal Oxide Nanomaterials","field":"Materials Science","cited_by":243,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Electrochromism; Materials science; Electrode; Zinc; Optoelectronics; Electrochromic devices; Nanotechnology; Metallurgy","score_opus":0.024833912641673676,"score_gpt":0.2674250485160399,"score_spread":0.2425911358743662,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3087729161","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9479822,0.00021121693,0.046889585,0.0010349337,0.0010549458,0.0014727004,0.0006828679,0.0006032504,0.000068338806],"genre_scores_gemma":[0.97544783,0.0000796419,0.021715537,0.0013942381,0.0006041944,0.00047651233,0.00013152648,0.0001119113,0.000038622922],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965866,0.00020193703,0.000959589,0.0008702551,0.00042110286,0.0009604657],"domain_scores_gemma":[0.998748,0.0001325381,0.00033184473,0.00035341005,0.00017673637,0.00025746424],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007328691,0.0004601863,0.000937085,0.000075417454,0.00023822344,0.000258531,0.000501327,0.00014070675,0.001709488],"category_scores_gemma":[0.00016226586,0.00044452815,0.00016477349,0.00017727623,0.00008494373,0.00072915934,0.00004210802,0.000072460534,0.0004496856],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010455732,0.00003892719,0.000002324633,0.0002475503,0.000026277321,0.0000065254153,0.00023181224,0.00017333034,0.99592996,0.0018684843,0.00017575579,0.00025349992],"study_design_scores_gemma":[0.0019269023,0.00043027062,0.00006882171,0.000052756266,0.00009010641,0.000013809319,0.000033126307,0.000015894759,0.9910911,0.0017155214,0.004050616,0.0005111167],"about_ca_topic_score_codex":0.000009581735,"about_ca_topic_score_gemma":0.0000056875197,"teacher_disagreement_score":0.027465653,"about_ca_system_score_codex":0.00012671147,"about_ca_system_score_gemma":0.0001228587,"threshold_uncertainty_score":0.9998006},"labels":[],"label_agreement":null},{"id":"W3088249502","doi":"10.1002/adma.202004654","title":"Mesoporous Nanoarchitectures for Electrochemical Energy Conversion and Storage","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Supercapacitor Materials and Fabrication","field":"Materials Science","cited_by":182,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Future Earth","funders":"Australian Research Council; National Natural Science Foundation of China; Japan Science and Technology Agency; Higher Education Discipline Innovation Project; Australian National Fabrication Facility","keywords":"Mesoporous material; Materials science; Nanomaterials; Nanotechnology; Supercapacitor; Energy storage; Electrochemical energy conversion; Nanostructure; Lithium (medication); Electrochemical energy storage; Graphene; Electrochemistry; Mesoporous organosilica; Electrode; Mesoporous silica; Catalysis; Chemistry","score_opus":0.01644849609749672,"score_gpt":0.27507486417895083,"score_spread":0.2586263680814541,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3088249502","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0017936388,0.9933984,0.0013672564,0.00003577351,0.0016454208,0.0009141849,0.0006148313,0.00020180589,0.000028648326],"genre_scores_gemma":[0.0011536381,0.9935234,0.0031976637,0.00011666502,0.0007898182,0.0006180481,0.00043285624,0.00011824855,0.000049666167],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99751526,0.00020852842,0.0007314291,0.0008370255,0.00025529682,0.00045245758],"domain_scores_gemma":[0.9986937,0.00026222732,0.00044061375,0.0003555661,0.00009118709,0.00015667551],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032573187,0.00055177003,0.0019056918,0.000086092245,0.00014866775,0.00018484761,0.00035121478,0.0003423541,0.00030898093],"category_scores_gemma":[0.00023688943,0.00044412707,0.00016090495,0.00009697164,0.00012533602,0.00016196855,0.00015410935,0.00007351956,0.000048463287],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008032364,0.000014291378,6.4637558e-9,0.0053715245,0.000020102398,0.0000047357403,0.000034778626,1.1899689e-7,0.8821799,0.0006556548,0.0002657738,0.111372754],"study_design_scores_gemma":[0.00020410022,0.00010089588,4.853876e-8,0.00065200817,0.00016989742,0.00004092084,0.000005559186,4.4749302e-7,0.35997048,0.00040519558,0.6381194,0.0003310371],"about_ca_topic_score_codex":0.000016131136,"about_ca_topic_score_gemma":8.3264115e-7,"teacher_disagreement_score":0.6378536,"about_ca_system_score_codex":0.00014427323,"about_ca_system_score_gemma":0.00013908591,"threshold_uncertainty_score":0.99980104},"labels":[],"label_agreement":null},{"id":"W3089507008","doi":"10.1002/adma.202002974","title":"IFlowPlate—A Customized 384‐Well Plate for the Culture of Perfusable Vascularized Colon Organoids","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":162,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Organoid; Extracellular matrix; Decellularization; In vivo; Cell biology; Transplantation; Biomedical engineering; Biology; Medicine; Internal medicine","score_opus":0.014257005013312025,"score_gpt":0.25186177579445773,"score_spread":0.2376047707811457,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3089507008","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94818914,0.0012568025,0.04170951,0.0009647931,0.001882304,0.003042221,0.00025500276,0.00074254995,0.0019576552],"genre_scores_gemma":[0.98227346,0.0006107509,0.016249739,0.00014572905,0.00020212239,0.00016205886,0.00003381982,0.00007135704,0.00025095895],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986543,0.00004944869,0.00038380374,0.00021475622,0.0003330885,0.000364619],"domain_scores_gemma":[0.99908215,0.00033285207,0.000062580286,0.0002778144,0.00013252115,0.000112059315],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005724202,0.00017662371,0.00043184517,0.000026712238,0.00007842794,0.000032454063,0.00039416435,0.00013854018,0.0007102146],"category_scores_gemma":[0.0009154727,0.00012204709,0.00008771483,0.00020558925,0.00008636756,0.00009097264,0.00010262357,0.00013809209,0.00010979148],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034682945,0.000010076517,0.0000034531872,0.00037642647,0.00009781846,0.0000020843595,0.00045728288,0.0032668926,0.99243146,0.00008764446,0.0017091063,0.0012109369],"study_design_scores_gemma":[0.0025779093,0.00008247704,0.000025775786,0.000040675724,0.00004006916,0.0000012336252,0.000093572155,0.0046422337,0.9486376,0.00021472674,0.043491643,0.00015208297],"about_ca_topic_score_codex":0.000008272819,"about_ca_topic_score_gemma":8.402416e-7,"teacher_disagreement_score":0.043793846,"about_ca_system_score_codex":0.000043265223,"about_ca_system_score_gemma":0.000030762643,"threshold_uncertainty_score":0.77763516},"labels":[],"label_agreement":null},{"id":"W3093308746","doi":"10.1002/adma.202003913","title":"Prediction of Chronic Inflammation for Inhaled Particles: the Impact of Material Cycling and Quarantining in the Lung Epithelium","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Inhalation and Respiratory Drug Delivery","field":"Medicine","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Health Canada","funders":"Health Canada; Helmholtz-Zentrum Dresden-Rossendorf; Javna Agencija za Raziskovalno Dejavnost RS; China Scholarship Council; Science Foundation Ireland","keywords":"Materials science; Inflammation; Cycling; Lung; Nanotechnology; Immunology; Medicine; Internal medicine","score_opus":0.028697013670468785,"score_gpt":0.30391159881461044,"score_spread":0.27521458514414165,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3093308746","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99830776,0.00009854483,0.00036391857,0.0002875643,0.00010740257,0.0007406238,0.00006265106,0.000013168169,0.000018350886],"genre_scores_gemma":[0.99947697,0.00004359417,0.00013537501,0.000050942966,0.00022298007,0.000039362312,0.00002071736,0.000008899224,0.0000011630441],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99919486,0.00008856477,0.00041535217,0.000093057046,0.000108977016,0.00009917715],"domain_scores_gemma":[0.9994966,0.00009868216,0.00021330456,0.000097744894,0.000075413795,0.000018290135],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00050707255,0.00007299266,0.00021323816,0.000030186267,0.00003750618,0.000011488877,0.00004321603,0.00003915302,0.000029016208],"category_scores_gemma":[0.00020193403,0.000039525497,0.000040398176,0.00007947861,0.00004996413,0.00010394766,0.000012640555,0.00003323973,6.4320506e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006572974,0.00001440665,0.0005722136,0.000293684,0.000019814266,0.0000010818499,0.0020896024,0.0008561481,0.99439365,0.00007051449,0.00001345761,0.0010181181],"study_design_scores_gemma":[0.0019434788,0.0004189631,0.009660903,0.00016630517,0.00004730746,0.000007456338,0.00052281254,0.0039696307,0.98314023,0.000044240336,0.00003639136,0.000042264328],"about_ca_topic_score_codex":0.000012676807,"about_ca_topic_score_gemma":9.595433e-7,"teacher_disagreement_score":0.011253415,"about_ca_system_score_codex":0.000022308022,"about_ca_system_score_gemma":0.000049634324,"threshold_uncertainty_score":0.1611803},"labels":[],"label_agreement":null},{"id":"W3094207138","doi":"10.1002/adma.202070316","title":"Multiemission Particle Velocimetry: The Key Role of Intrinsic Lifetime Dynamics from Upconverting Nanosystems in Multiemission Particle Velocimetry (Adv. Mater. 42/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ion-surface interactions and analysis","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Velocimetry; Materials science; Particle tracking velocimetry; Particle (ecology); Particle image velocimetry; Luminescence; Photon upconversion; Nanotechnology; Optics; Mechanics; Optoelectronics; Physics","score_opus":0.005160490009231283,"score_gpt":0.21217150413724814,"score_spread":0.20701101412801687,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3094207138","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99746317,0.0005349983,0.0005983957,0.00037223974,0.0004478452,0.00024909363,0.00010193076,0.00018614893,0.00004615294],"genre_scores_gemma":[0.99804974,0.00011327404,0.0014999248,0.000055575685,0.000115652976,0.000028741802,0.000043593387,0.000057758407,0.00003576497],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980509,0.00012179753,0.00086672493,0.00032257533,0.00026664164,0.0003713276],"domain_scores_gemma":[0.9990718,0.00017912047,0.00020641147,0.00032684347,0.00008102154,0.0001348425],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026404572,0.0002607125,0.0005260796,0.000040612023,0.00009710984,0.00007284516,0.00025196248,0.000119741315,0.00032947084],"category_scores_gemma":[0.00027385523,0.00020959685,0.0000879279,0.00047601477,0.000034496916,0.00032865378,0.00011790428,0.00015990349,0.000101302605],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009832726,0.000037798094,0.0023069512,0.000090876245,0.00005773686,0.00000654292,0.0011581089,0.023441028,0.9654126,0.000017426757,0.000041961903,0.00733062],"study_design_scores_gemma":[0.0005171872,0.000026100804,0.0015482083,0.00017129266,0.00003303741,0.0000011963192,0.001378613,0.22813919,0.76736546,0.00004383653,0.0005792968,0.00019654761],"about_ca_topic_score_codex":0.0004194352,"about_ca_topic_score_gemma":0.000024089108,"teacher_disagreement_score":0.20469818,"about_ca_system_score_codex":0.0001576848,"about_ca_system_score_gemma":0.000018960955,"threshold_uncertainty_score":0.8547112},"labels":[],"label_agreement":null},{"id":"W3095196606","doi":"10.1002/adma.202004477","title":"Periodic Wrinkle‐Patterned Single‐Crystalline Ferroelectric Oxide Membranes with Enhanced Piezoelectricity","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":116,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"National Key Research and Development Program of China; Fundamental Research Funds for the Central Universities; Higher Education Discipline Innovation Project; China Postdoctoral Science Foundation; National Natural Science Foundation of China; Ministry of Education - Singapore","keywords":"Materials science; Ferroelectricity; Composite material; Piezoelectricity; Membrane; Polarization (electrochemistry); Oxide; Wrinkle; Nanotechnology; Dielectric; Optoelectronics","score_opus":0.012575404250908157,"score_gpt":0.19655406296039782,"score_spread":0.18397865870948965,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3095196606","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9262979,0.00022161222,0.07017582,0.00009489806,0.00026678565,0.00035185035,0.00005165264,0.0015877291,0.00095173524],"genre_scores_gemma":[0.99048203,0.00022801013,0.0081235245,0.0004088987,0.00030535867,0.000091054855,0.00007598402,0.00018724341,0.000097865624],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975256,0.00007649147,0.0006414181,0.00058144884,0.00037804077,0.00079704],"domain_scores_gemma":[0.9990067,0.00007725818,0.00015720287,0.00035514258,0.00013154013,0.00027219325],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012700938,0.000573861,0.0008157418,0.00010402506,0.00012902496,0.00011833308,0.00031772078,0.00013384412,0.00035545355],"category_scores_gemma":[0.0001354054,0.00051809126,0.00006324895,0.0004975199,0.00006916789,0.00048431644,0.00004829642,0.00015110898,0.00009218258],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030540282,0.000025978392,0.0000061069727,0.00032263668,0.000048861515,0.000039391336,0.00013668602,0.09100501,0.9062781,0.00005981834,0.000025587226,0.0017464696],"study_design_scores_gemma":[0.0010999601,0.00034278547,0.00011284492,0.00007520578,0.000042001775,0.00002893059,0.000027414515,0.00048222073,0.9945914,0.00013001464,0.0023852717,0.000681944],"about_ca_topic_score_codex":0.000015438505,"about_ca_topic_score_gemma":0.000014436893,"teacher_disagreement_score":0.09052279,"about_ca_system_score_codex":0.00013539064,"about_ca_system_score_gemma":0.000029165982,"threshold_uncertainty_score":0.9997271},"labels":[],"label_agreement":null},{"id":"W3096248859","doi":"10.1002/adma.201906070","title":"Composite Nanostructure Construction on the Grain Surface of Li‐Rich Layered Oxides","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":133,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Key Research and Development Program of China; Natural Science Foundation of Beijing Municipality; Beijing Municipal Commission of Education; National Natural Science Foundation of China","keywords":"Materials science; Nanostructure; Composite number; Atomic layer deposition; Chemical engineering; Grain size; Cathode; Spinel; Nanotechnology; Coating; Grain growth; Thermal stability; Composite material; Layer (electronics); Metallurgy","score_opus":0.012019323258045176,"score_gpt":0.21998390870471318,"score_spread":0.20796458544666802,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3096248859","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9954133,0.00006271595,0.0012260644,0.00044995436,0.0016161036,0.0003986678,0.00027990725,0.00024322388,0.00031003525],"genre_scores_gemma":[0.9913381,0.000056324483,0.007914856,0.00046418243,0.00011365197,0.00001793459,0.00002637567,0.000053637526,0.000014940761],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987774,0.00008787119,0.00045434627,0.00021742581,0.00022385619,0.0002391062],"domain_scores_gemma":[0.9993487,0.000101578255,0.00014949814,0.000291785,0.000059790855,0.000048663693],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013649245,0.00024223146,0.00038774873,0.000022693748,0.00006348789,0.000039376137,0.00023836936,0.000072982744,0.00050702796],"category_scores_gemma":[0.000096227726,0.00018683138,0.000026060905,0.00013297719,0.00008812892,0.00016815888,0.000057148714,0.00007354618,0.000053792886],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000098271834,0.0000051613247,0.000025724845,0.00011750986,0.00003526064,0.0000021549008,0.00016136131,0.03287177,0.96460897,0.00133156,0.0005003752,0.00024186485],"study_design_scores_gemma":[0.00034055233,0.00006153005,0.00019716205,0.000060627433,0.000012963559,0.000004720798,0.00008925982,0.000032449807,0.99590176,0.0016419943,0.0014688037,0.00018818848],"about_ca_topic_score_codex":0.0000019092565,"about_ca_topic_score_gemma":3.2089056e-7,"teacher_disagreement_score":0.032839324,"about_ca_system_score_codex":0.00004183139,"about_ca_system_score_gemma":0.000007586394,"threshold_uncertainty_score":0.7618763},"labels":[],"label_agreement":null},{"id":"W3097268224","doi":"10.1002/adma.202004985","title":"A Tuned Alternating D–A Copolymer Hole‐Transport Layer Enables Colloidal Quantum Dot Solar Cells with Superior Fill Factor and Efficiency","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":83,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Ministry of Science and ICT, South Korea; National Research Foundation of Korea; Ministry of Science, ICT and Future Planning","keywords":"Materials science; Quantum dot; Optoelectronics; Polymer; Active layer; Photovoltaic system; Electron mobility; Nanotechnology; Quantum efficiency; Polymer solar cell; Conjugated system; Layer (electronics); Energy conversion efficiency; Thin-film transistor; Composite material","score_opus":0.019903070502606385,"score_gpt":0.22458447186543956,"score_spread":0.20468140136283317,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3097268224","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971353,0.00050236343,0.00026650704,0.0003054354,0.0004838859,0.0004936887,0.0005025564,0.0001900101,0.00012028583],"genre_scores_gemma":[0.9970597,0.00021649223,0.0018631483,0.00046905386,0.00015208463,0.00006562022,0.000009570433,0.00007049355,0.0000938562],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997529,0.00012814652,0.0005643438,0.00070363726,0.0004706167,0.00060426246],"domain_scores_gemma":[0.99904853,0.00010969046,0.00022595571,0.0002809823,0.0001112675,0.00022355036],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00031428487,0.00040148452,0.00067498884,0.00005101517,0.00028405988,0.00024561083,0.00032409778,0.00009273212,0.0020805832],"category_scores_gemma":[0.000088380955,0.00028331336,0.000048608425,0.00012679206,0.00022838241,0.0005630232,0.0000891341,0.000080899954,0.00013252297],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005336078,0.000040168885,0.00015344436,0.00020072928,0.000013929948,0.000036152494,0.0014110332,0.00013845743,0.9971383,0.0000813978,0.000025560064,0.00022720484],"study_design_scores_gemma":[0.00082363485,0.00040815186,0.00027647644,0.00012654494,0.00003232482,0.000009610272,0.00041693915,0.000054596276,0.9949501,0.000022889093,0.0024099501,0.000468751],"about_ca_topic_score_codex":0.00022252613,"about_ca_topic_score_gemma":0.000015160794,"teacher_disagreement_score":0.00238439,"about_ca_system_score_codex":0.000027632977,"about_ca_system_score_gemma":0.000088406065,"threshold_uncertainty_score":0.9999619},"labels":[],"label_agreement":null},{"id":"W3097610605","doi":"10.1002/adma.202005637","title":"SARS‐CoV‐2 RBD Neutralizing Antibody Induction is Enhanced by Particulate Vaccination","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"SARS-CoV-2 and COVID-19 Research","field":"Medicine","cited_by":106,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Allergy and Infectious Diseases; National Cancer Institute; National Institutes of Health; Canada Foundation for Innovation; McGill University","keywords":"Materials science; Particulates; Coronavirus disease 2019 (COVID-19); Vaccination; Neutralizing antibody; Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2); Antibody response; Virology; 2019-20 coronavirus outbreak; Antibody; Immunology; Virus; Medicine; Outbreak; Organic chemistry; Chemistry","score_opus":0.04667679535363505,"score_gpt":0.3863427202796674,"score_spread":0.3396659249260323,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3097610605","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948668,0.00014348442,0.0011658308,0.0021501558,0.0003672761,0.00060036796,0.000027389424,0.00018607298,0.00049266225],"genre_scores_gemma":[0.9671614,0.000041796382,0.000384135,0.031979904,0.0002661307,0.00006006396,0.000043680982,0.00004315813,0.000019726625],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99826944,0.000074484065,0.0004088166,0.0004557203,0.00039345308,0.00039807145],"domain_scores_gemma":[0.999327,0.00003128626,0.00013761087,0.00025643822,0.0001933314,0.00005435601],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000219778,0.00020514517,0.000399904,0.000068723486,0.00009015245,0.00007109894,0.00010924252,0.00012300909,0.000107991946],"category_scores_gemma":[0.00022657673,0.00018978088,0.00006264406,0.0003050175,0.000026459724,0.00038661607,0.000057995007,0.00012690558,0.00026345364],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004574527,0.000054072625,0.00014971248,0.00018308443,0.000035554363,0.000011334464,0.00038904196,0.0000013058298,0.99370724,0.000049504273,0.0009135477,0.004048165],"study_design_scores_gemma":[0.0015474175,0.0002648401,0.00073076657,0.000060237162,0.000040189523,0.0000063148727,0.00007413846,0.00002442126,0.96020365,0.00020791523,0.036654804,0.00018529483],"about_ca_topic_score_codex":0.000042236796,"about_ca_topic_score_gemma":0.0000017188758,"teacher_disagreement_score":0.03574126,"about_ca_system_score_codex":0.000094729796,"about_ca_system_score_gemma":0.00006462781,"threshold_uncertainty_score":0.77390397},"labels":[],"label_agreement":null},{"id":"W3097696171","doi":"10.1002/adma.202006277","title":"Functional Porous Materials Chemistry","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Materials science; Porosity; Porous medium; Nanotechnology; Chemical engineering; Polymer science; Composite material; Engineering","score_opus":0.017039164227315814,"score_gpt":0.23298036698306931,"score_spread":0.21594120275575351,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3097696171","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9887005,0.00014077626,0.0007725318,0.0017870642,0.00027165242,0.00012435141,0.00045497858,0.00033909752,0.0074090147],"genre_scores_gemma":[0.9941332,0.0000737514,0.0022640517,0.000623925,0.0010147217,0.00015903896,0.00024897762,0.000060408936,0.0014219774],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99850667,0.000015490385,0.00047824235,0.00045389784,0.0002598967,0.00028580087],"domain_scores_gemma":[0.99907076,0.00006920315,0.00022110168,0.0004088542,0.0000742231,0.00015585391],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00012215854,0.00023532406,0.00038129854,0.000007720925,0.000109155786,0.00009407693,0.00025059475,0.0001770049,0.10202476],"category_scores_gemma":[0.00031678742,0.00022708188,0.00005004746,0.000085109445,0.00005120406,0.00012073679,0.00010016447,0.000089312736,0.00084908656],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006418051,0.00003523815,0.000002741512,0.00016692546,0.000028337077,0.000004072997,0.00002613348,0.000013261975,0.99596715,0.00067897275,0.0019784488,0.0010345229],"study_design_scores_gemma":[0.00029481377,0.0000051770407,0.000031876672,0.000035581084,0.000028304188,0.000010419546,0.000055909906,0.0000012087479,0.9611885,0.000797218,0.037309203,0.00024179528],"about_ca_topic_score_codex":0.0000049923406,"about_ca_topic_score_gemma":1.465369e-7,"teacher_disagreement_score":0.101175666,"about_ca_system_score_codex":0.00004226757,"about_ca_system_score_gemma":0.000042686934,"threshold_uncertainty_score":0.9999289},"labels":[],"label_agreement":null},{"id":"W3097940878","doi":"10.1002/adma.202004900","title":"Preferentially Engineering FeN<sub>4</sub> Edge Sites onto Graphitic Nanosheets for Highly Active and Durable Oxygen Electrocatalysis in Rechargeable Zn–Air Batteries","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":351,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Science and Technology Major Project; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Overpotential; Electrocatalyst; Nanosheet; Oxygen evolution; Materials science; Catalysis; Oxygen; Battery (electricity); Carbon fibers; Nanotechnology; Chemical engineering; Electrochemistry; Electrode; Chemistry; Physical chemistry; Organic chemistry; Composite material","score_opus":0.008606326638949465,"score_gpt":0.19811774317262718,"score_spread":0.1895114165336777,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3097940878","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9976979,0.00018380306,0.00052747485,0.000505371,0.00021666105,0.00046979976,0.000038424463,0.0002627618,0.00009783004],"genre_scores_gemma":[0.9969984,0.00034611925,0.0012534424,0.00029707554,0.00012432926,0.0003531149,0.00046922427,0.00010610177,0.00005217964],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977306,0.000060591683,0.00050459633,0.0007183258,0.0002588759,0.00072697736],"domain_scores_gemma":[0.9990543,0.00013180853,0.00018706606,0.00030152695,0.00016177414,0.00016349067],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00017578277,0.00041994223,0.00067376456,0.00022938926,0.00013101629,0.00007492242,0.00025186554,0.00017089819,0.000042890824],"category_scores_gemma":[0.00033489708,0.00044644187,0.00009393594,0.00042520388,0.00003631607,0.000848034,0.00011507871,0.00011044564,0.00002261078],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000704439,0.0000326222,0.000012190706,0.00029192318,0.00012697393,0.000005064671,0.0002563337,0.0014878273,0.99463594,0.0013281392,0.00012354348,0.0009949862],"study_design_scores_gemma":[0.0012626123,0.00027211057,0.0002588201,0.00008142464,0.00008951667,0.000004542197,0.00004348363,0.00010560137,0.9944225,0.0008374005,0.0021484867,0.00047352814],"about_ca_topic_score_codex":0.000146641,"about_ca_topic_score_gemma":0.0006864278,"teacher_disagreement_score":0.0020249432,"about_ca_system_score_codex":0.00022482248,"about_ca_system_score_gemma":0.00006917721,"threshold_uncertainty_score":0.9997987},"labels":[],"label_agreement":null},{"id":"W3100518211","doi":"10.1002/adma.202003879","title":"Unraveling the Nature of Excellent Potassium Storage in Small‐Molecule Se@Peapod‐Like N‐Doped Carbon Nanofibers","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":143,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Dalian National Laboratory for Clean Energy; Office of Energy Efficiency; National Key Research and Development Program of China; National Postdoctoral Program for Innovative Talents; Office of Science; Fundamental Research Funds for the Central Universities; Liaoning Revitalization Talents Program; Dalian Institute of Chemical Physics; Vehicle Technologies Office; University of Science and Technology of China; China Postdoctoral Science Foundation; National Natural Science Foundation of China; University of Chicago; Argonne National Laboratory; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada","keywords":"Materials science; Battery (electricity); Electrochemistry; Electrolyte; Microporous material; Cathode; Anode; Molecule; Chemical engineering; Nanofiber; Energy storage; Nanotechnology; Carbon nanofiber; Carbon fibers; Potassium-ion battery; Electrode; Organic chemistry; Carbon nanotube; Physical chemistry; Chemistry; Composite number","score_opus":0.010930677335330718,"score_gpt":0.21367361860013556,"score_spread":0.20274294126480485,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3100518211","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99590933,0.00079382746,0.0005438227,0.00040516997,0.0011463588,0.0003893613,0.000060779308,0.00040193612,0.00034939992],"genre_scores_gemma":[0.9971259,0.00033027044,0.0020968495,0.0002053258,0.00008181879,0.000057896137,0.000017292885,0.00006662251,0.000017993476],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986531,0.00004890527,0.0004937893,0.0002902086,0.00014986424,0.0003641111],"domain_scores_gemma":[0.99938315,0.000051045645,0.00012353908,0.00035430308,0.000042873824,0.000045107994],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016152662,0.00028239118,0.00046226216,0.00006474922,0.000036896752,0.000032339147,0.00036210078,0.00020518772,0.00004960516],"category_scores_gemma":[0.0000631759,0.00022278544,0.000043303906,0.0002174453,0.00006726157,0.00009683164,0.00014222351,0.00020424293,0.000006693765],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000054509703,0.00001017435,0.000009037936,0.00021384232,0.000018076153,0.000021935222,0.0002727108,0.014159214,0.984635,0.00013174202,0.000048191236,0.00042559148],"study_design_scores_gemma":[0.00046123055,0.000054343756,0.00010930164,0.00008939018,0.000012818662,0.0000027625003,0.00033307064,0.00027374987,0.99659246,0.00032342406,0.0014911562,0.0002562935],"about_ca_topic_score_codex":0.000024969637,"about_ca_topic_score_gemma":0.0000164236,"teacher_disagreement_score":0.013885464,"about_ca_system_score_codex":0.00006463744,"about_ca_system_score_gemma":0.000016415903,"threshold_uncertainty_score":0.9084926},"labels":[],"label_agreement":null},{"id":"W3101560636","doi":"10.1002/adma.202003500","title":"Random Polymerization Strategy Leads to a Family of Donor Polymers Enabling Well‐Controlled Morphology and Multiple Cases of High‐Performance Organic Solar Cells","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Victoria Park","funders":"National Key Research and Development Program of China; Office of Science; U.S. Department of Energy; South China University of Technology; Basic Energy Sciences; State Key Laboratory of Luminescent Materials and Devices; Office of Naval Research; Innovation and Technology Commission","keywords":"Organic solar cell; Polymer; Materials science; Polymerization; Copolymer; Monomer; Polymer chemistry; Thiophene; Nanotechnology; Chemical engineering; Organic chemistry; Chemistry; Composite material","score_opus":0.0066156709986301245,"score_gpt":0.19285519861758252,"score_spread":0.1862395276189524,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3101560636","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968284,0.0008372425,0.0014572563,0.000023648448,0.00022889808,0.00044516247,0.00009046928,0.000064757885,0.000024182149],"genre_scores_gemma":[0.99796146,0.0014532653,0.00035584887,0.0000884052,0.000049803693,0.000013264327,0.000018528719,0.000049539234,0.000009904309],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989208,0.00003393899,0.000489833,0.00019104079,0.0001045985,0.00025978172],"domain_scores_gemma":[0.99948347,0.000109368186,0.00012773248,0.00014643447,0.000050831295,0.0000821532],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011277263,0.00018532647,0.0006347315,0.00007148824,0.000031776068,0.000015226516,0.00010730937,0.00007974451,0.00014562705],"category_scores_gemma":[0.00006588097,0.0001813317,0.000028887156,0.00020498234,0.000028090211,0.00011697379,0.0000331694,0.000057503104,0.000005832431],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009451596,0.000011525218,0.000027696384,0.00020110632,0.000042211333,0.0000028712684,0.00014329008,0.01591955,0.9823366,0.000012067079,0.000006813681,0.00035112718],"study_design_scores_gemma":[0.00475217,0.00038594686,0.000060646154,0.00002674537,0.000041323583,0.000004026615,0.000054008247,0.00089936634,0.9935417,0.000007918911,0.000059130965,0.00016699125],"about_ca_topic_score_codex":0.00007567357,"about_ca_topic_score_gemma":0.0000071628515,"teacher_disagreement_score":0.015020183,"about_ca_system_score_codex":0.000020330217,"about_ca_system_score_gemma":0.000038920327,"threshold_uncertainty_score":0.7394492},"labels":[],"label_agreement":null},{"id":"W3103100888","doi":"10.1002/adma.202003722","title":"Moisture‐Enabled Electricity Generation: From Physics and Materials to Self‐Powered Applications","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Solar-Powered Water Purification Methods","field":"Energy","cited_by":410,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Moisture; Materials science; Nanotechnology; Electricity; Graphene; Process engineering; Energy storage; Electricity generation; Electronics; Environmental science; Electrical engineering; Power (physics); Engineering; Composite material","score_opus":0.04396853856161702,"score_gpt":0.33497197830999365,"score_spread":0.2910034397483766,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3103100888","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00023183173,0.9603454,0.028545655,0.00014541276,0.0017755657,0.0050577824,0.0023940085,0.000936498,0.0005678705],"genre_scores_gemma":[0.00007929765,0.857112,0.13170813,0.0002972989,0.0029470194,0.004230796,0.0030326734,0.0002679651,0.00032484703],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9949791,0.0010196904,0.0015500202,0.0014807148,0.00041230547,0.0005581849],"domain_scores_gemma":[0.9969919,0.00026576355,0.000890335,0.0012751097,0.0002478832,0.0003290532],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005533811,0.0009378212,0.0029420347,0.0001310861,0.00023603806,0.00044820114,0.00066629966,0.00052655046,0.00048476874],"category_scores_gemma":[0.00024228431,0.0008757017,0.00016906894,0.000682711,0.00004118951,0.0002741101,0.00025860814,0.00021323281,0.0008127947],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000050565384,0.00011038354,1.2331604e-7,0.00264521,0.00051208975,0.000012249704,0.0002180962,0.00002967608,0.33220816,0.019415189,0.0009660695,0.6438322],"study_design_scores_gemma":[0.00029546994,0.00004032112,0.0000015551157,0.00035715735,0.00053435477,0.000008823232,0.0000037521306,0.000001001675,0.13192771,0.0037484483,0.8623282,0.0007532505],"about_ca_topic_score_codex":0.00014533818,"about_ca_topic_score_gemma":0.000010913225,"teacher_disagreement_score":0.8613621,"about_ca_system_score_codex":0.0003263866,"about_ca_system_score_gemma":0.00021744381,"threshold_uncertainty_score":0.9999652},"labels":[],"label_agreement":null},{"id":"W3104163849","doi":"10.1002/adma.202070345","title":"Microfluidics: IFlowPlate—A Customized 384‐Well Plate for the Culture of Perfusable Vascularized Colon Organoids (Adv. Mater. 46/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Organoid; Microfluidics; Stem cell; Cell biology; Biomedical engineering; Vascular network; Cell culture; Materials science; Biology; Nanotechnology; Anatomy; Medicine","score_opus":0.010842858218143207,"score_gpt":0.24723490819696856,"score_spread":0.23639204997882535,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3104163849","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9710146,0.0026294999,0.019105362,0.00093496067,0.0018732554,0.0027113364,0.00042781816,0.0006763412,0.0006268244],"genre_scores_gemma":[0.9742037,0.003509536,0.020571291,0.000316398,0.00040047802,0.00028008802,0.00010576774,0.00016553099,0.00044717535],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979188,0.00008534268,0.0006316891,0.00035458797,0.00044044768,0.00056913414],"domain_scores_gemma":[0.9987675,0.00034107256,0.00010519754,0.00042235976,0.00019168934,0.00017217064],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007826935,0.00029866726,0.0006565807,0.00003967457,0.00012390062,0.0000870216,0.0006135748,0.00022784426,0.001060427],"category_scores_gemma":[0.0007435338,0.00021648836,0.00013675542,0.00028295154,0.0001405621,0.00014050325,0.00018898485,0.00020337796,0.00021505251],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005355194,0.00001671493,0.000005501978,0.0007114926,0.00015968647,0.000007056855,0.0006367194,0.00091073546,0.9903688,0.00004755697,0.0054864585,0.0011137625],"study_design_scores_gemma":[0.0029571957,0.00010397644,0.000022030572,0.000072257106,0.000064842054,0.0000043819,0.00014586421,0.0016217012,0.9364844,0.00017955374,0.05810874,0.00023505538],"about_ca_topic_score_codex":0.000014417692,"about_ca_topic_score_gemma":6.3441877e-7,"teacher_disagreement_score":0.05388439,"about_ca_system_score_codex":0.00007752578,"about_ca_system_score_gemma":0.000049314986,"threshold_uncertainty_score":0.9998527},"labels":[],"label_agreement":null},{"id":"W3105657706","doi":"10.1002/adma.202005159","title":"Scalable Substitutional Re‐Doping and its Impact on the Optical and Electronic Properties of Tungsten Diselenide","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":71,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Basic Energy Sciences; Division of Materials Research; Office of Science; University of Pennsylvania; Semiconductor Research Corporation; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; U.S. Department of Energy; Pennsylvania State University; University of California; National Science Foundation","keywords":"Tungsten diselenide; Dopant; Materials science; Doping; Substrate (aquarium); Nanotechnology; Optoelectronics; Chemical vapor deposition; Impurity; Transition metal; Organic chemistry","score_opus":0.024415016377420627,"score_gpt":0.2646925006184056,"score_spread":0.24027748424098497,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3105657706","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996998,0.0004963978,0.000037448113,0.0017929726,0.00006160771,0.0003867585,0.000087829125,0.000042383097,0.000096596814],"genre_scores_gemma":[0.9990923,0.00023456174,0.00024508973,0.00023003305,0.00008146575,0.00008366139,0.0000048312313,0.000013809864,0.000014251886],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989673,0.000054482774,0.00027402458,0.00026764802,0.00017008978,0.00026648268],"domain_scores_gemma":[0.99954236,0.000064944266,0.000108971566,0.00013697313,0.000065146785,0.00008158836],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029520292,0.00014585485,0.00026335026,0.00001441074,0.00013686735,0.000084474545,0.00013621355,0.0000380713,0.00033430572],"category_scores_gemma":[0.0001691158,0.00008485016,0.000020804353,0.000061389226,0.00014145784,0.00019908039,0.000094182404,0.00004030269,0.000035943198],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017774836,0.000014690517,0.000006009023,0.00007365091,0.000006093348,3.7787026e-7,0.00007382185,0.00006432122,0.9647393,0.034769647,0.00002713419,0.000047184865],"study_design_scores_gemma":[0.00021607036,0.00012392201,0.00061167544,0.0000696313,0.000014958093,0.0000046604637,0.000035828725,0.000035015884,0.99738526,0.001204822,0.000188919,0.00010922721],"about_ca_topic_score_codex":0.000011359583,"about_ca_topic_score_gemma":0.0000012580088,"teacher_disagreement_score":0.033564825,"about_ca_system_score_codex":0.000025513249,"about_ca_system_score_gemma":0.000060434857,"threshold_uncertainty_score":0.36604133},"labels":[],"label_agreement":null},{"id":"W3107339555","doi":"10.1002/adma.202001358","title":"Full Concentration Gradient‐Tailored Li‐Rich Layered Oxides for High‐Energy Lithium‐Ion Batteries","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":146,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Vehicle Technologies Office; Basic Energy Sciences; Office of Science; Natural Science Foundation of Beijing Municipality; National Key Research and Development Program of China; National Outstanding Youth Foundation of China; National Natural Science Foundation of China; U.S. Department of Energy","keywords":"Materials science; Electrolyte; Lithium (medication); Spinel; Electrochemistry; Chemical engineering; Ion; Electrode; Voltage; Cathode; Battery (electricity); Thermal stability; Composite material; Metallurgy","score_opus":0.01510446096992659,"score_gpt":0.2307395098863596,"score_spread":0.215635048916433,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3107339555","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.873024,0.00019367486,0.11991983,0.00057084573,0.0041107936,0.0007297721,0.00048297388,0.0008440765,0.00012401934],"genre_scores_gemma":[0.9852856,0.0001830068,0.011782157,0.0008610404,0.00071133015,0.0005061119,0.0004739245,0.00013103089,0.00006578973],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979589,0.00006569756,0.00073797797,0.0004504535,0.00023821261,0.0005487594],"domain_scores_gemma":[0.999147,0.000095186304,0.00018040423,0.00031926713,0.0001266586,0.00013146453],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014170361,0.00040427307,0.00058263965,0.000043065796,0.00011722993,0.00015680275,0.00026518866,0.00012358172,0.0004626265],"category_scores_gemma":[0.00014289805,0.00041992095,0.000039142098,0.00013274654,0.000061602856,0.00074321346,0.00007164173,0.000047286074,0.000061946695],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005111718,0.00001645803,0.0000060066545,0.00029767843,0.000049548064,0.0000042511238,0.00025814105,0.005817181,0.986145,0.004217228,0.0019368115,0.0007405137],"study_design_scores_gemma":[0.0011944774,0.00028691834,0.00004965354,0.00005723846,0.000030456344,0.000003252041,0.00007885845,0.000113187096,0.98019785,0.005850917,0.011675795,0.00046142552],"about_ca_topic_score_codex":0.0000061069895,"about_ca_topic_score_gemma":0.000003542198,"teacher_disagreement_score":0.11226159,"about_ca_system_score_codex":0.00012488943,"about_ca_system_score_gemma":0.0000160404,"threshold_uncertainty_score":0.99982524},"labels":[],"label_agreement":null},{"id":"W3109969363","doi":"10.1002/adma.202070353","title":"Disease Prediction: Prediction of Chronic Inflammation for Inhaled Particles: the Impact of Material Cycling and Quarantining in the Lung Epithelium (Adv. Mater. 47/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Inhalation and Respiratory Drug Delivery","field":"Medicine","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Health Canada","funders":"","keywords":"Inflammation; In vivo; Nanomaterials; Materials science; Cycling; Nanotechnology; Nanotoxicology; Biology; Immunology; Nanoparticle","score_opus":0.017079195340505296,"score_gpt":0.29095830966370295,"score_spread":0.27387911432319767,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3109969363","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969598,0.00017929092,0.00041581359,0.00057228206,0.00024233463,0.0011933465,0.00038930823,0.000033801403,0.000013993974],"genre_scores_gemma":[0.99901116,0.00011014323,0.00010787224,0.00006965243,0.0004893639,0.00010352716,0.00008808215,0.000017119659,0.0000031067495],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870056,0.00013917078,0.0006378439,0.00017176285,0.00019417971,0.00015646343],"domain_scores_gemma":[0.9992631,0.000096471485,0.00029807174,0.00017241226,0.000114910654,0.000054997043],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005486294,0.00012849862,0.00029051877,0.000042066455,0.00007373363,0.000025305828,0.00006989782,0.00005381536,0.00006577447],"category_scores_gemma":[0.00022605453,0.00007487896,0.00006954657,0.00012377407,0.000083782455,0.00020301773,0.000024603027,0.000052171916,0.0000013574627],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002075739,0.00003770362,0.0027968178,0.0007833809,0.000043085918,0.0000060483835,0.0018260495,0.0022652196,0.9893621,0.0000689692,0.0000511695,0.0006836723],"study_design_scores_gemma":[0.004978749,0.0009145921,0.07738613,0.000613315,0.00024545463,0.000025199553,0.00090036326,0.016339734,0.8982105,0.00012171477,0.00012598628,0.00013824682],"about_ca_topic_score_codex":0.000010244969,"about_ca_topic_score_gemma":7.695469e-7,"teacher_disagreement_score":0.09115163,"about_ca_system_score_codex":0.00004272514,"about_ca_system_score_gemma":0.00009257162,"threshold_uncertainty_score":0.30534753},"labels":[],"label_agreement":null},{"id":"W3111283339","doi":"10.1002/adma.202070377","title":"Flexible Ferroelectrics: Periodic Wrinkle‐Patterned Single‐Crystalline Ferroelectric Oxide Membranes with Enhanced Piezoelectricity (Adv. Mater. 50/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Ferroelectricity; Materials science; Piezoelectricity; Wrinkle; Membrane; Elastomer; Flexoelectricity; Oxide; Nanotechnology; Composite material; Optoelectronics; Dielectric","score_opus":0.010677976921788505,"score_gpt":0.20356695202376576,"score_spread":0.19288897510197725,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3111283339","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.81456965,0.0008969864,0.17996074,0.00015534034,0.0005513339,0.0010146316,0.00014549187,0.0022328747,0.00047296926],"genre_scores_gemma":[0.98641247,0.0014424355,0.010094155,0.00065916224,0.0004260148,0.00025530765,0.00017986231,0.00034444247,0.00018613461],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957893,0.00010052112,0.0010418694,0.0009906521,0.0006467993,0.0014308711],"domain_scores_gemma":[0.9983443,0.00007974925,0.00030263313,0.0005960463,0.00023023837,0.00044700573],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024250787,0.0009700219,0.0013073741,0.00018674506,0.00021404035,0.00021845396,0.0005936546,0.00026580272,0.0006834131],"category_scores_gemma":[0.00013191419,0.00089991966,0.00011989826,0.00097034185,0.00006235444,0.0007572975,0.00011729074,0.0002958204,0.00017665328],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008182165,0.00006885214,0.0000025655647,0.0008049536,0.000092502705,0.00007158426,0.00017522227,0.017787075,0.97705215,0.00014372727,0.00009932762,0.0028838208],"study_design_scores_gemma":[0.0018158178,0.000894108,0.000026769167,0.00011047622,0.00009781598,0.00007223872,0.000056317527,0.0009880697,0.98924637,0.00053905335,0.0050323857,0.0011206092],"about_ca_topic_score_codex":0.000016146136,"about_ca_topic_score_gemma":0.00001518024,"teacher_disagreement_score":0.17184286,"about_ca_system_score_codex":0.00033742635,"about_ca_system_score_gemma":0.00008813725,"threshold_uncertainty_score":0.9993451},"labels":[],"label_agreement":null},{"id":"W3111384439","doi":"10.1002/adma.202070373","title":"Vaccines: SARS‐CoV‐2 RBD Neutralizing Antibody Induction is Enhanced by Particulate Vaccination (Adv. Mater. 50/2020)","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Immunotherapy and Immune Responses","field":"Immunology and Microbiology","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Immunogen; Virology; Vaccination; Neutralizing antibody; Adjuvant; Immunization; Antibody; Coronavirus disease 2019 (COVID-19); Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2); Immune system; Recombinant DNA; Antibody response; Neutralization; Virus; Biology; Immunology; Medicine; Monoclonal antibody","score_opus":0.014810657445850537,"score_gpt":0.2901147519148753,"score_spread":0.27530409446902476,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3111384439","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.991824,0.0027013675,0.000987591,0.0016543492,0.0018101058,0.0005220294,0.000121437224,0.00027486664,0.00010430214],"genre_scores_gemma":[0.9950818,0.0017589283,0.00017406058,0.001808863,0.00008284702,0.000066122986,0.00047030902,0.000060971153,0.0004961431],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977859,0.00036097146,0.00070106826,0.000539339,0.0000707576,0.0005419436],"domain_scores_gemma":[0.9990937,0.000063977146,0.00035096356,0.00033904958,0.00012575317,0.000026558531],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0002445493,0.00037244626,0.0005655801,0.00006511138,0.0002692208,0.00008053222,0.0002626686,0.00029639507,0.0024771607],"category_scores_gemma":[0.00010572024,0.00034679082,0.00009897003,0.00021572936,0.00004527182,0.00064307224,0.00008161967,0.00017116865,0.0009535391],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001726816,0.000065899156,0.000019631001,0.000067863715,0.00015018434,0.000002257058,0.00090161926,0.000009048166,0.9894873,0.0000552241,0.002713382,0.0048008068],"study_design_scores_gemma":[0.0020883917,0.0003218245,0.0013430238,0.00005243669,0.000047644087,0.000022717068,0.000197669,8.278878e-7,0.9477064,0.000110950365,0.047729634,0.00037847416],"about_ca_topic_score_codex":0.000055100245,"about_ca_topic_score_gemma":0.0000011758597,"teacher_disagreement_score":0.04501625,"about_ca_system_score_codex":0.00005578149,"about_ca_system_score_gemma":0.000035208515,"threshold_uncertainty_score":0.99989843},"labels":[],"label_agreement":null},{"id":"W3112174353","doi":"10.1002/adma.202006368","title":"Linear Electro‐Optic Modulation in Highly Polarizable Organic Perovskites","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; University of Toronto; Canada Foundation for Innovation; Government of Ontario","keywords":"Polarizability; Materials science; Perovskite (structure); Silicon; Silicon photonics; Optoelectronics; Photonics; Halide; Optical modulator; Molecule; Nanotechnology; Inorganic chemistry; Organic chemistry; Phase modulation; Chemistry","score_opus":0.007152505431006541,"score_gpt":0.20463218649463574,"score_spread":0.1974796810636292,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3112174353","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961023,0.00009977476,0.0023823357,0.0003018744,0.0001741012,0.00024856083,0.00005993427,0.0003835539,0.00024759816],"genre_scores_gemma":[0.9950752,0.00007668065,0.004302794,0.000118143165,0.00019147056,0.00006234981,0.00010110322,0.000053666532,0.000018564993],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990877,0.00001961855,0.00031576937,0.00020541555,0.00010164952,0.00026984935],"domain_scores_gemma":[0.9996777,0.000019746367,0.000036918504,0.00016571503,0.000029877518,0.000070005706],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000081068676,0.00016033211,0.00024815538,0.000042673677,0.000037655536,0.000054013544,0.00012754767,0.00006877719,0.0003708843],"category_scores_gemma":[0.000046959067,0.00016771315,0.000019155106,0.0002196003,0.000011740576,0.00023018125,0.000028172632,0.00005773488,0.00024134561],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000124513135,0.000009720162,0.00001957835,0.00005862509,0.0000054829625,0.0000018884987,0.000079253616,0.009441031,0.989561,0.00051031186,0.00006260154,0.00023801092],"study_design_scores_gemma":[0.00034111232,0.000035439305,0.0011248429,0.000017322513,0.000006505603,0.0000019802897,0.000010913584,0.0038331237,0.99098194,0.0005859442,0.0028565733,0.00020429782],"about_ca_topic_score_codex":0.000011194799,"about_ca_topic_score_gemma":0.0000037617606,"teacher_disagreement_score":0.005607907,"about_ca_system_score_codex":0.000062872205,"about_ca_system_score_gemma":0.000013021141,"threshold_uncertainty_score":0.68391436},"labels":[],"label_agreement":null},{"id":"W3115255220","doi":"10.1002/adma.202006697","title":"Deep‐Blue Perovskite Single‐Mode Lasing through Efficient Vapor‐Assisted Chlorination","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Sony Corporation of America","keywords":"Lasing threshold; Materials science; Optoelectronics; Perovskite (structure); Laser; Halide; Active laser medium; Band gap; Wavelength; Optics; Laser power scaling; Inorganic chemistry; Chemical engineering","score_opus":0.02069381704703295,"score_gpt":0.24540801156878975,"score_spread":0.22471419452175678,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3115255220","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95540416,0.00012500366,0.04072855,0.00027423748,0.00074504636,0.00033991633,0.000099212215,0.0007800087,0.0015038925],"genre_scores_gemma":[0.99066526,0.000054745,0.008434935,0.00020357197,0.00032580152,0.000114243274,0.000111209854,0.00007319654,0.000017041075],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99868983,0.000027448557,0.00043111743,0.00031248006,0.00020644195,0.00033270314],"domain_scores_gemma":[0.99946344,0.000032358414,0.00008858641,0.00024533633,0.00007523754,0.000095068244],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00008024104,0.00024652874,0.00032304955,0.000030412823,0.000115332245,0.0001404669,0.00017138288,0.00008568404,0.00020427896],"category_scores_gemma":[0.000060688566,0.0002537251,0.000042648844,0.00019322053,0.000032695832,0.00022326244,0.000053367155,0.000058629183,0.00017588996],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021027901,0.000029449031,8.7036335e-7,0.00010537833,0.000013696202,0.0000031180523,0.0006072506,0.0707763,0.9255012,0.0008308034,0.00006166765,0.002049195],"study_design_scores_gemma":[0.00045293508,0.000039417704,0.00025494723,0.000041192503,0.000022685617,0.000006294526,0.00009649537,0.0043851384,0.98019505,0.000194939,0.01399069,0.00032024767],"about_ca_topic_score_codex":0.0000072468565,"about_ca_topic_score_gemma":0.0000041030594,"teacher_disagreement_score":0.06639116,"about_ca_system_score_codex":0.000116376,"about_ca_system_score_gemma":0.000009721391,"threshold_uncertainty_score":0.9999915},"labels":[],"label_agreement":null},{"id":"W3116869818","doi":"10.1002/adma.202004356","title":"Failing Forward: Stability of Transparent Electrodes Based on Metal Nanowire Networks","year":2020,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Nanomaterials and Printing Technologies","field":"Engineering","cited_by":145,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; Equinor","keywords":"Materials science; Electrode; Nanowire; Nanotechnology; Metal; Optoelectronics; Metallurgy","score_opus":0.031132324404691242,"score_gpt":0.2740700433302109,"score_spread":0.24293771892551966,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3116869818","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0024584958,0.98752475,0.006018558,0.00000856046,0.0012690477,0.0010305913,0.0004078376,0.0012059057,0.00007626611],"genre_scores_gemma":[0.05244202,0.94297594,0.003986899,0.0000049930413,0.00010396683,0.00022084577,0.00013452332,0.00012958203,0.0000012047408],"study_design_codex":"design_other","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99773735,0.00012512034,0.0010694527,0.00043917992,0.00020733048,0.0004215694],"domain_scores_gemma":[0.99890107,0.00017318637,0.0002423553,0.0005894947,0.00004127222,0.00005265066],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040257126,0.00059216155,0.0026679712,0.00010777358,0.00003951043,0.00004425607,0.0004516669,0.00036814288,0.0001331593],"category_scores_gemma":[0.00013105513,0.00049263786,0.00033434673,0.00021731367,0.00005206841,0.00007708901,0.000053341493,0.00018799018,0.000010685546],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006243539,0.000040409053,3.636389e-7,0.04247935,0.00024760456,0.00000943464,0.000014886625,0.012353646,0.09394374,0.00022305887,0.000016715976,0.85060835],"study_design_scores_gemma":[0.00023815506,0.00018168287,5.4869975e-7,0.0062959488,0.0004310514,0.0000024873118,0.000005432741,0.00031188474,0.5986552,0.00013948487,0.3930574,0.0006806649],"about_ca_topic_score_codex":0.000003376629,"about_ca_topic_score_gemma":0.0000021787155,"teacher_disagreement_score":0.84992766,"about_ca_system_score_codex":0.00013201681,"about_ca_system_score_gemma":0.00005894115,"threshold_uncertainty_score":0.9997525},"labels":[],"label_agreement":null},{"id":"W3120443905","doi":"10.1002/adma.202003855","title":"3D‐Printable Fluoropolymer Gas Diffusion Layers for CO<sub>2</sub> Electroreduction","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":108,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; U.S. Department of Energy","keywords":"Fluoropolymer; Materials science; Electrolyte; Chemical engineering; Gaseous diffusion; Electrochemistry; Porosity; Diffusion; Catalysis; Electrosynthesis; Electrode; Nanotechnology; Current density; Layer (electronics); Gas diffusion electrode; Composite material; Organic chemistry; Chemistry; Polymer; Physical chemistry; Fuel cells","score_opus":0.008028430790971392,"score_gpt":0.2552048260978779,"score_spread":0.24717639530690652,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3120443905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99199873,0.00029801685,0.0035256068,0.00026135048,0.001783136,0.0003322734,0.000045142464,0.0003798421,0.0013759191],"genre_scores_gemma":[0.9908579,0.0010859403,0.004583847,0.00016866733,0.0007399349,0.000431205,0.00054213917,0.00008442711,0.0015059273],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985598,0.000054952376,0.00035682207,0.00043874668,0.00019574548,0.00039395882],"domain_scores_gemma":[0.9991594,0.000025967296,0.00014522224,0.00039306923,0.00019855336,0.00007778059],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016443086,0.00020702524,0.0003162465,0.00006768282,0.00017937283,0.00006985985,0.00010164722,0.00012020982,0.000659035],"category_scores_gemma":[0.000075634256,0.0002129096,0.00009895897,0.00016351377,0.000040083698,0.00024543816,0.000051722272,0.00005930995,0.00006688107],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013945364,0.00006225133,9.383735e-7,0.000042857708,0.000023192826,0.0000036040078,0.000030009516,0.00005062722,0.9302247,0.003798143,0.0015342148,0.064089976],"study_design_scores_gemma":[0.0004784757,0.00007563174,0.000010385096,0.000027226268,0.000030066507,0.00004959256,0.00009567761,0.0000050794765,0.91686857,0.003305243,0.07882181,0.00023227098],"about_ca_topic_score_codex":0.00008250582,"about_ca_topic_score_gemma":0.000029138888,"teacher_disagreement_score":0.07728759,"about_ca_system_score_codex":0.00016206065,"about_ca_system_score_gemma":0.00006579282,"threshold_uncertainty_score":0.86822015},"labels":[],"label_agreement":null},{"id":"W3120797158","doi":"10.1002/adma.202100978","title":"Ultrafast Photoconductivity and Terahertz Vibrational Dynamics in Double‐Helix SnIP Nanowires","year":2021,"lang":"en","type":"preprint","venue":"Advanced Materials","topic":"Semiconductor Quantum Structures and Devices","field":"Physics and Astronomy","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Photoexcitation; Materials science; Photoconductivity; Picosecond; Terahertz radiation; Nanowire; Optoelectronics; Semiconductor; Electron mobility; Terahertz spectroscopy and technology; Charge carrier; Ultrashort pulse; Excitation; Chemical physics; Chemistry; Optics; Laser; Physics","score_opus":0.013581818745711665,"score_gpt":0.27135281548716905,"score_spread":0.25777099674145737,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3120797158","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99549395,0.00013007016,0.00018909856,0.00007356877,0.0020115785,0.00073210016,0.00076093705,0.00003556074,0.0005731374],"genre_scores_gemma":[0.9964739,0.000036541896,0.0014187513,0.00005349329,0.00041475528,0.00028839518,0.0012144091,0.000041762374,0.000057964768],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981933,0.00008059573,0.000500411,0.0007059094,0.00020823734,0.00031153587],"domain_scores_gemma":[0.99905133,0.00007352444,0.00031446654,0.00038828803,0.00009836766,0.00007402622],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015407008,0.00040961654,0.0006670389,0.000083635874,0.00007936723,0.00036867976,0.0001948915,0.00016554173,0.0010222287],"category_scores_gemma":[0.000009907764,0.00039148328,0.00008016246,0.00007291208,0.00007530955,0.0003612652,0.00034219248,0.0002704529,0.000003282968],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013026726,0.00007856302,0.006285493,0.00024935298,0.00009201758,0.0000100671705,0.00030932887,0.00031159283,0.97889364,0.011770243,0.0000116299825,0.0018577989],"study_design_scores_gemma":[0.0013731426,0.000021312178,0.0056819697,0.0003472425,0.000033126365,0.0000061488513,0.0008446158,0.00016441105,0.968531,0.022063669,0.0002769315,0.0006564014],"about_ca_topic_score_codex":0.0013709137,"about_ca_topic_score_gemma":0.00024655784,"teacher_disagreement_score":0.010362618,"about_ca_system_score_codex":0.000102619044,"about_ca_system_score_gemma":0.0001670773,"threshold_uncertainty_score":0.999891},"labels":[],"label_agreement":null},{"id":"W3121641898","doi":"10.1002/adma.202006577","title":"An Air‐Stable and Li‐Metal‐Compatible Glass‐Ceramic Electrolyte enabling High‐Performance All‐Solid‐State Li Metal Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; GLABAT Solid-State Battery; Government of Saskatchewan; Canada Research Chairs; Western University; Ontario Research Foundation; Canada Foundation for Innovation; Canadian Institutes of Health Research; National Research Council; University of Saskatchewan; Canadian Light Source","keywords":"Materials science; Ceramic; Electrolyte; Ionic conductivity; Metal; Sintering; Fast ion conductor; Amorphous solid; Electrochemical window; Conductivity; Chemical engineering; Electrochemistry; Analytical Chemistry (journal); Composite material; Electrode; Metallurgy; Physical chemistry; Crystallography; Organic chemistry","score_opus":0.0071950622372569635,"score_gpt":0.22359006996719896,"score_spread":0.216395007729942,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3121641898","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930018,0.0010759848,0.002817945,0.000083074956,0.0012109096,0.0002651005,0.00014771173,0.0013263959,0.00007107127],"genre_scores_gemma":[0.9874731,0.0040314663,0.0076283156,0.0001662716,0.00013786067,0.00012147283,0.00014826108,0.00013450069,0.00015878883],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975861,0.00006252751,0.00064863014,0.00059662847,0.00023466744,0.00087148475],"domain_scores_gemma":[0.99893296,0.000055094486,0.00014315106,0.00064424425,0.000119499826,0.000105029685],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022888342,0.0005243738,0.00085374183,0.00014966827,0.00014186338,0.00026033085,0.00028207878,0.00014948212,0.00022074865],"category_scores_gemma":[0.00004784671,0.0005165764,0.00004375728,0.00024183118,0.000109431465,0.0017239463,0.00017243657,0.00016657427,0.000048035574],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006537827,0.000032275155,0.000030248411,0.00030384483,0.00009767069,0.000038979266,0.00010201742,0.020758875,0.973855,0.0002147013,0.000020948593,0.0044800513],"study_design_scores_gemma":[0.00063404045,0.00019150731,0.00067645573,0.000092475726,0.00004865289,0.00006457181,0.00007273028,0.00058735715,0.98963994,0.0020784615,0.0052973926,0.00061640854],"about_ca_topic_score_codex":0.00001791414,"about_ca_topic_score_gemma":0.000020534251,"teacher_disagreement_score":0.020171518,"about_ca_system_score_codex":0.000093330826,"about_ca_system_score_gemma":0.00003158109,"threshold_uncertainty_score":0.99972856},"labels":[],"label_agreement":null},{"id":"W3124879962","doi":"10.1002/adma.202002534","title":"New Frontiers in 3D Structural Sensing Robots","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Robot; Robotics; Electronics; Artificial intelligence; Merge (version control); Computer science; Flexibility (engineering); Process (computing); 3D printing; Systems engineering; Human–computer interaction; Engineering; Mechanical engineering; Electrical engineering","score_opus":0.020063949557199326,"score_gpt":0.27650071044481683,"score_spread":0.2564367608876175,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3124879962","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00023653675,0.9830443,0.0062989527,0.0000016959202,0.009195117,0.00036060013,0.00008584929,0.0004724225,0.00030448384],"genre_scores_gemma":[0.0000141751525,0.8376147,0.1610848,0.00001017719,0.0005223017,0.000014870844,0.00028742888,0.00022455513,0.00022700074],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99727875,0.00015798304,0.0011156838,0.0005589044,0.00021476983,0.0006739005],"domain_scores_gemma":[0.99897295,0.000081010905,0.00021451859,0.0005353409,0.00004223488,0.00015391633],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013983209,0.0007744524,0.0030964036,0.00024728244,0.00004942962,0.00015866438,0.00024262442,0.0003873276,0.00018985911],"category_scores_gemma":[0.00015271964,0.0007498764,0.00017510704,0.0003388285,0.000025044412,0.0002999287,0.00008550837,0.00022061687,0.000034604695],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000004140454,0.0000015387199,1.5678583e-7,0.0055783684,0.000074680174,0.00013714019,0.000021521533,0.025150165,0.0029330165,0.000038731465,0.00046052012,0.9656],"study_design_scores_gemma":[0.0004364674,0.000013205362,0.0000013471102,0.017293215,0.00022498105,0.00015735018,0.000021387737,0.000037829286,0.006338453,0.0005444563,0.973518,0.0014132665],"about_ca_topic_score_codex":0.00004214489,"about_ca_topic_score_gemma":0.000018700972,"teacher_disagreement_score":0.9730575,"about_ca_system_score_codex":0.00035695886,"about_ca_system_score_gemma":0.000114594855,"threshold_uncertainty_score":0.9994952},"labels":[],"label_agreement":null},{"id":"W3126180571","doi":"10.1002/adma.202006629","title":"Operando Magnetometry Probing the Charge Storage Mechanism of CoO Lithium‐Ion Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Key Research and Development Program of China; Natural Science Foundation of Shandong Province; Youth Innovation Promotion Association of the Chinese Academy of Sciences; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Materials science; Magnetometer; Lithium (medication); Energy storage; Nanotechnology; Electrochemistry; Ion; Electrode; Cobalt; Transition metal; Magnetization; Cobalt oxide; Chemical engineering; Optoelectronics; Catalysis; Magnetic field; Metallurgy; Physical chemistry; Chemistry","score_opus":0.010425741805924777,"score_gpt":0.23433673766283675,"score_spread":0.22391099585691196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3126180571","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9865888,0.0004833303,0.00664066,0.00011908385,0.004325477,0.00051297067,0.00022152679,0.00025689468,0.00085129833],"genre_scores_gemma":[0.99469995,0.00031824305,0.0035669652,0.00022584354,0.00021128342,0.00017391042,0.000061862935,0.00009170594,0.00065024476],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982894,0.00012827218,0.0006238585,0.0002821766,0.00029200196,0.00038427158],"domain_scores_gemma":[0.9989934,0.00009154624,0.00013959856,0.00059225125,0.00013973376,0.000043452732],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00045959602,0.00028692908,0.00052863284,0.00006813501,0.00010417621,0.000070143295,0.00028370233,0.00008682491,0.0025814418],"category_scores_gemma":[0.00011683732,0.00023358036,0.000038839073,0.00020072742,0.00006644428,0.0004322957,0.00016668027,0.0000821373,0.00008930584],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043362477,0.000020115014,0.0000030973806,0.00036303027,0.000036456466,0.0000121351995,0.000288573,0.00089656666,0.9954752,0.0022734383,0.00017911207,0.00040892293],"study_design_scores_gemma":[0.0006306687,0.00003902263,0.00004555813,0.00013982435,0.000024028934,0.000021477092,0.00013086123,0.000012160879,0.99309295,0.0012938752,0.004316016,0.0002535609],"about_ca_topic_score_codex":0.0000028240213,"about_ca_topic_score_gemma":0.000001181923,"teacher_disagreement_score":0.008111183,"about_ca_system_score_codex":0.0000775385,"about_ca_system_score_gemma":0.000023914292,"threshold_uncertainty_score":0.99833035},"labels":[],"label_agreement":null},{"id":"W3128599886","doi":"10.1002/adma.202007472","title":"Multidisciplinary Materials Research at Harbin Institute of Technology","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"X-ray Diffraction in Crystallography","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Materials science; Multidisciplinary approach; Engineering ethics; Nanotechnology; Engineering physics; Library science; Engineering; Computer science; Political science","score_opus":0.038211886870036904,"score_gpt":0.35466718849333523,"score_spread":0.3164553016232983,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3128599886","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9928041,0.00022260308,0.00006984885,0.0003979457,0.0028061233,0.00041353752,0.00025099269,0.0002640557,0.0027707852],"genre_scores_gemma":[0.97641134,0.00014177409,0.019133193,0.000023137622,0.00011505797,0.00019894502,0.000045172652,0.00007882013,0.0038525716],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969071,0.00029842777,0.00079113804,0.0007248974,0.0006343562,0.00064404606],"domain_scores_gemma":[0.9977549,0.0001462781,0.0003467425,0.0009989012,0.0006521413,0.00010103982],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0013336712,0.00024691076,0.00061240006,0.00048259285,0.00027985568,0.00007908794,0.0004773665,0.00024712493,0.015067475],"category_scores_gemma":[0.0009195152,0.00024136873,0.000059379337,0.00081859354,0.0007572455,0.00045437546,0.0009656749,0.000105655345,0.0010830968],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016349544,0.00013735385,0.000117310876,0.00015149788,0.000015353857,0.00008744579,0.00007219876,0.000030153096,0.99397653,0.004581724,0.00053033757,0.00013656674],"study_design_scores_gemma":[0.00063872995,0.00008528534,0.0013215644,0.00013897044,0.000011837763,0.00006129692,0.00020423938,1.8294251e-7,0.96812236,0.0040260367,0.025159348,0.00023013171],"about_ca_topic_score_codex":0.000034287365,"about_ca_topic_score_gemma":0.00003511649,"teacher_disagreement_score":0.025854185,"about_ca_system_score_codex":0.00015038921,"about_ca_system_score_gemma":0.00014888644,"threshold_uncertainty_score":0.9996947},"labels":[],"label_agreement":null},{"id":"W3129122001","doi":"10.1002/adma.202005672","title":"Conformal Geometry and Multimaterial Additive Manufacturing through Freeform Transformation of Building Layers","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Additive Manufacturing and 3D Printing Technologies","field":"Engineering","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Science Foundation Graduate Research Fellowship Program; National Institute of General Medical Sciences; China Scholarship Council; National Heart, Lung, and Blood Institute; W. M. Keck Foundation; International Institute for Nanotechnology, Northwestern University; Farley Foundation; National Science Foundation","keywords":"3D printing; Process (computing); Layer (electronics); Context (archaeology); Materials science; Transformation (genetics); Mechanical engineering; Conformal map; Fabrication; Engineering drawing; Computer science; Orientation (vector space); Three dimensional printing; Nanotechnology; Geometry; Engineering; Composite material","score_opus":0.009409351893329674,"score_gpt":0.23237886059261048,"score_spread":0.2229695086992808,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3129122001","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98406124,0.00007395643,0.013254467,0.000017610273,0.00045809086,0.00013195709,0.00032448297,0.00046691022,0.0012112994],"genre_scores_gemma":[0.9790315,0.00033893637,0.020446692,0.000012883248,0.000046751935,0.000021338017,0.00006827494,0.000025949363,0.00000768875],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99908155,0.000013445686,0.00034351484,0.00015945596,0.00013972748,0.000262312],"domain_scores_gemma":[0.9996197,0.000059417715,0.000079558224,0.00016510798,0.0000505925,0.000025623856],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011783631,0.00018772519,0.000308408,0.00007012501,0.000066754284,0.000046176505,0.00010273367,0.000108482425,0.00015870822],"category_scores_gemma":[0.00006725294,0.00018450225,0.00003397499,0.000054077856,0.000074698466,0.00052959996,0.00007925902,0.00008442527,0.0000042623533],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037629543,0.000008723179,0.00000224478,0.0003906939,0.000062081745,0.000008841998,0.0004487081,0.0017234867,0.9506048,0.0021822692,0.000026022733,0.044504475],"study_design_scores_gemma":[0.0005172888,0.000025501113,0.0004566697,0.000110022076,0.000014292471,0.000018352705,0.000596984,0.00007193825,0.994314,0.0015747962,0.0020978528,0.00020230276],"about_ca_topic_score_codex":0.000012138386,"about_ca_topic_score_gemma":0.0000022456306,"teacher_disagreement_score":0.044302173,"about_ca_system_score_codex":0.00004331581,"about_ca_system_score_gemma":0.0000092973705,"threshold_uncertainty_score":0.75237834},"labels":[],"label_agreement":null},{"id":"W3129643530","doi":"10.1002/adma.202004554","title":"In Search of Excellence: Convex versus Concave Noble Metal Nanostructures for Electrocatalytic Applications","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Future Earth","funders":"Exploratory Research for Advanced Technology; Japan Science and Technology Agency; Australian Research Council; Australian National Fabrication Facility; National Research Foundation of Korea; Australian Government; Higher Education Discipline Innovation Project","keywords":"Noble metal; Materials science; Electrocatalyst; Nanoparticle; Nanotechnology; Nanostructure; Nanocages; Catalysis; Metal; Electrochemistry; Electrode; Chemistry; Metallurgy; Physical chemistry","score_opus":0.028318876193582747,"score_gpt":0.3382818107422308,"score_spread":0.30996293454864804,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3129643530","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00026949288,0.9962239,0.00017098952,0.00001163774,0.00084206625,0.0016991382,0.00012778747,0.000055544762,0.00059942756],"genre_scores_gemma":[0.0028455597,0.9911129,0.0010386488,0.000017217484,0.0002098377,0.0016807361,0.0021402652,0.00014525872,0.00080958125],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99680847,0.00018993394,0.001117486,0.0007845313,0.00045357185,0.000646032],"domain_scores_gemma":[0.9975299,0.0006436295,0.0005522582,0.00079700083,0.0003908403,0.00008634682],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004586647,0.00054189784,0.002596921,0.00032619684,0.00007809098,0.000031411135,0.00059893995,0.0004323449,0.00037547815],"category_scores_gemma":[0.00023788694,0.000512574,0.000392722,0.0006209994,0.000119539465,0.00019500368,0.00015989231,0.00020394189,0.000045537527],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00060801755,0.00019649108,9.816417e-8,0.042167913,0.0013913817,0.00003577673,0.00011667224,0.00022852275,0.38674262,0.10016594,0.00040193362,0.46794462],"study_design_scores_gemma":[0.00083750515,0.00012082653,3.4396635e-8,0.0010218462,0.0004063655,0.00001276353,0.000022745566,7.5847476e-7,0.38566226,0.0004647896,0.61111844,0.00033165523],"about_ca_topic_score_codex":0.00021610726,"about_ca_topic_score_gemma":0.00008397299,"teacher_disagreement_score":0.6107165,"about_ca_system_score_codex":0.00055098225,"about_ca_system_score_gemma":0.00072470336,"threshold_uncertainty_score":0.9997326},"labels":[],"label_agreement":null},{"id":"W3132730367","doi":"10.1002/adma.202007870","title":"Analysis of External and Internal Disorder to Understand Band‐Like Transport in n‐Type Organic Semiconductors","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Horizon 2020; Fonds de recherche du Québec – Nature et technologies; Engineering and Physical Sciences Research Council; Centre International de Recherche aux Frontières de la Chimie; China Scholarship Council; National Institute of Education; European Research Council; Fonds De La Recherche Scientifique - FNRS; Fédération Wallonie-Bruxelles; Marie Curie; Waalse Gewest; Agence Nationale de la Recherche; Natural Sciences and Engineering Research Council of Canada; European Commission","keywords":"Materials science; Organic semiconductor; van der Waals force; Semiconductor; Intermolecular force; Dielectric; Charge carrier; Chemical physics; Electron; Condensed matter physics; Optoelectronics; Physics; Molecule; Quantum mechanics","score_opus":0.005985505278496798,"score_gpt":0.2181631021565136,"score_spread":0.2121775968780168,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3132730367","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99766093,0.00089854724,0.00094560225,0.000008983143,0.00029810445,0.00006789783,0.00004165913,0.000024106686,0.000054171203],"genre_scores_gemma":[0.9988079,0.00083372905,0.00020824873,0.000030477333,0.000013057884,0.0000016688225,0.000018151257,0.00002456826,0.00006217248],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99927026,0.000013628777,0.0002739216,0.000164154,0.00009799023,0.00018004919],"domain_scores_gemma":[0.9997154,0.000017464412,0.000027584952,0.00014562068,0.000043376946,0.00005055067],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009718827,0.00011507277,0.00033912895,0.00012145372,0.000011360795,0.0000134749935,0.000066828645,0.00004722517,0.00064955966],"category_scores_gemma":[0.000014513229,0.00012064642,0.000027287755,0.0005244978,0.000011754625,0.000072563926,0.000014843107,0.000056659053,0.0000015226838],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002024583,0.000011950617,0.0021894856,0.000040730756,0.0001092046,0.000007873203,0.00040285528,0.0036262863,0.99346113,0.000048689817,0.000004554901,0.00007696545],"study_design_scores_gemma":[0.00028103087,0.00003377902,0.0072055073,0.000034675722,0.00010377035,0.0000037967018,0.00013889244,0.000041670042,0.9916,0.0002524617,0.00017118677,0.00013325429],"about_ca_topic_score_codex":0.00004436212,"about_ca_topic_score_gemma":0.0011258791,"teacher_disagreement_score":0.005016022,"about_ca_system_score_codex":0.00006564759,"about_ca_system_score_gemma":0.000029507357,"threshold_uncertainty_score":0.7112223},"labels":[],"label_agreement":null},{"id":"W3133769281","doi":"10.1002/adma.202007965","title":"Multiresponsive Nonvolatile Memories Based on Optically Switchable Ferroelectric Organic Field‐Effect Transistors","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"European Research Council; Natural Sciences and Engineering Research Council of Canada; Javna Agencija za Raziskovalno Dejavnost RS; Institut Universitaire de France; China Sponsorship Council; Agence Nationale de la Recherche; Deutsche Forschungsgemeinschaft; Centre International de Recherche aux Frontières de la Chimie","keywords":"Interfacing; Materials science; Ferroelectricity; Non-volatile memory; Transistor; Optoelectronics; Organic electronics; Electronics; Field-effect transistor; Nanotechnology; Computer science; Computer hardware; Electrical engineering; Voltage","score_opus":0.009968744792130863,"score_gpt":0.27233605548597856,"score_spread":0.26236731069384767,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3133769281","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0027894254,0.9893308,0.0022067076,0.000025912706,0.0018988661,0.0018531911,0.00044646242,0.00069715094,0.0007514275],"genre_scores_gemma":[0.005038807,0.9905744,0.0017586704,0.00006142799,0.00030520113,0.0013013036,0.00051493204,0.0002745067,0.00017073391],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99778783,0.00019864483,0.0007490383,0.0005269365,0.00025241936,0.00048511068],"domain_scores_gemma":[0.99811804,0.0008294419,0.00014171877,0.0007040852,0.0000876004,0.00011909961],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002787416,0.00069292233,0.002166327,0.00018461031,0.00011705948,0.00014731487,0.0003143773,0.00038458727,0.0015423096],"category_scores_gemma":[0.00030160355,0.00060148194,0.00026815903,0.0004346686,0.000023569706,0.00009404564,0.00003215642,0.00021169265,0.00020425257],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012731124,0.00014091571,1.2064865e-7,0.03305955,0.00035428567,0.00010621284,0.00007654956,0.001889121,0.36056957,0.00020729663,0.0013651676,0.6021039],"study_design_scores_gemma":[0.00042656524,0.0002595859,7.86434e-7,0.005209642,0.00052505237,0.000014984257,0.000004241947,0.00012264668,0.19632955,0.000017541017,0.7961939,0.00089553476],"about_ca_topic_score_codex":0.0000035635649,"about_ca_topic_score_gemma":0.000004547806,"teacher_disagreement_score":0.7948287,"about_ca_system_score_codex":0.0002597432,"about_ca_system_score_gemma":0.00016758866,"threshold_uncertainty_score":0.9996437},"labels":[],"label_agreement":null},{"id":"W3134301964","doi":"10.1002/adma.202007413","title":"Reverse‐Engineering Strain in Nanocrystallites by Tracking Trimerons","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Condensed Matter Physics","field":"Physics and Astronomy","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"Argonne National Laboratory; Natural Sciences and Engineering Research Council of Canada; National Science Council; U.S. Department of Energy","keywords":"Materials science; Nanorod; Nanomaterials; Strain (injury); Metal–insulator transition; Strain engineering; Charge ordering; Nanotechnology; Crystallite; Condensed matter physics; Nanoparticle; Oxide; Metal; Optoelectronics; Charge (physics); Metallurgy","score_opus":0.005769749352946267,"score_gpt":0.2280290499925639,"score_spread":0.22225930063961763,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3134301964","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9782132,0.00029267452,0.018495834,0.00018302911,0.0004834049,0.00026832425,0.00074404804,0.0001056601,0.0012138523],"genre_scores_gemma":[0.99067265,0.000008899047,0.00826916,0.00010517565,0.00012061402,0.0000507384,0.00025735545,0.000049351594,0.00046608277],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987953,0.00003696795,0.0003311235,0.00033103212,0.00013488934,0.0003707413],"domain_scores_gemma":[0.9994349,0.0000748667,0.00009786137,0.0002717121,0.00006345655,0.000057236244],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009366368,0.00020634999,0.00031821124,0.000034748406,0.000038083057,0.00006308242,0.00011379666,0.00003184718,0.00062330504],"category_scores_gemma":[0.000022219805,0.00024165201,0.000049739927,0.00017049657,0.00001824148,0.0003872394,0.000057515685,0.000100089324,0.00002802044],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000007699992,0.00004918101,0.000058527807,0.000023490516,0.00001764786,0.000011695706,0.00007250849,0.0009517741,0.9897602,0.0038257244,0.00016657925,0.00505496],"study_design_scores_gemma":[0.0007001039,0.000010624172,0.000113720074,0.00010086797,0.000009750893,0.0000015400764,0.00020168925,0.000009712923,0.97910434,0.0095363,0.00992765,0.0002837281],"about_ca_topic_score_codex":0.000018659863,"about_ca_topic_score_gemma":0.000001556726,"teacher_disagreement_score":0.0124594495,"about_ca_system_score_codex":0.000049572966,"about_ca_system_score_gemma":0.000047831112,"threshold_uncertainty_score":0.98542833},"labels":[],"label_agreement":null},{"id":"W3135358711","doi":"10.1002/adma.202008194","title":"Whole‐Voltage‐Range Oxygen Redox in P2‐Layered Cathode Materials for Sodium‐Ion Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":235,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Energy Efficiency; Office of Science; University of Science and Technology of China; National Synchrotron Radiation Laboratory; University of Chicago; National Natural Science Foundation of China; Brookhaven National Laboratory; Argonne National Laboratory; U.S. Department of Energy; Salt Science Research Foundation; Office of Energy Efficiency and Renewable Energy; Science and Technology Commission of Shanghai Municipality; Fudan University; Canada Excellence Research Chairs, Government of Canada","keywords":"Redox; Materials science; Cathode; Electrochemistry; Oxide; Ion; Oxygen; Inorganic chemistry; Electrode; Chemistry; Physical chemistry","score_opus":0.015916394773610322,"score_gpt":0.26161614916960474,"score_spread":0.24569975439599442,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3135358711","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9828139,0.00035048745,0.0047532115,0.00018232148,0.0072946525,0.0011642535,0.0026410278,0.00052014174,0.00028003167],"genre_scores_gemma":[0.9796443,0.00034539434,0.015637906,0.000550499,0.00061553373,0.001483877,0.0008759365,0.00028900642,0.000557544],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965577,0.00014966939,0.0012677343,0.00070505857,0.00039096383,0.00092884456],"domain_scores_gemma":[0.9984596,0.00017425568,0.00020819716,0.00082438375,0.00023275433,0.00010080791],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00081343984,0.00058751064,0.001148708,0.00020159579,0.00011794241,0.00025763136,0.00037162658,0.00023890816,0.0014660455],"category_scores_gemma":[0.00039842693,0.0006525472,0.000057312394,0.00024157528,0.000071703245,0.00081668625,0.00018762356,0.0000836632,0.00016247778],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022920918,0.00005019318,0.000015731648,0.0006180116,0.000053471216,0.000056143283,0.00032332996,0.0019058862,0.9946489,0.00030776975,0.0010345919,0.0007567946],"study_design_scores_gemma":[0.0016291952,0.000055565357,0.0009682396,0.0002689542,0.000041307187,0.00001829597,0.00014778961,0.000010440704,0.9688542,0.0029645471,0.024351662,0.0006898249],"about_ca_topic_score_codex":0.000012464752,"about_ca_topic_score_gemma":0.00003698764,"teacher_disagreement_score":0.02579469,"about_ca_system_score_codex":0.00040393617,"about_ca_system_score_gemma":0.000056437308,"threshold_uncertainty_score":0.9995926},"labels":[],"label_agreement":null},{"id":"W3137870273","doi":"10.1002/adma.202008690","title":"Solvent‐Assisted Kinetic Trapping in Quaternary Perovskites","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto","funders":"","keywords":"Materials science; Perovskite (structure); Halide; Crystallite; Chemical engineering; Absorption (acoustics); Phase (matter); Inorganic chemistry; Composite material; Organic chemistry; Metallurgy; Chemistry","score_opus":0.012420669850514163,"score_gpt":0.23691047017714004,"score_spread":0.22448980032662588,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3137870273","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963311,0.00048525893,0.00060205697,0.00010851063,0.0005548778,0.00014300163,0.000057845395,0.0002470365,0.001470322],"genre_scores_gemma":[0.9969139,0.00031123616,0.0022290612,0.00005693579,0.0001004233,0.00013971563,0.00008421791,0.000042395928,0.00012209242],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99897665,0.000031744312,0.00037563842,0.00022280824,0.00010851111,0.0002846669],"domain_scores_gemma":[0.99958146,0.000030759307,0.000034152752,0.00026494323,0.000038496168,0.00005020109],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009949918,0.00016567575,0.00027717353,0.000057777386,0.000036020185,0.00007989166,0.00011369366,0.000063094216,0.00061861915],"category_scores_gemma":[0.000027040289,0.0001776337,0.00003348691,0.00016490994,0.000019047959,0.000139803,0.00003736757,0.00004738948,0.00008747828],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000058601486,0.00002831789,0.000032094613,0.00009383461,0.000008903923,0.000027993075,0.00006924698,0.0019701938,0.9956955,0.0003301717,0.00008905291,0.0016488862],"study_design_scores_gemma":[0.00042148182,0.000008793734,0.0067256493,0.00010592908,0.000007565856,0.00002149617,0.000054297358,0.0001429442,0.98422444,0.0007486745,0.007312058,0.00022668777],"about_ca_topic_score_codex":0.000014729233,"about_ca_topic_score_gemma":0.000027746391,"teacher_disagreement_score":0.011471022,"about_ca_system_score_codex":0.000060603288,"about_ca_system_score_gemma":0.000015872209,"threshold_uncertainty_score":0.7243692},"labels":[],"label_agreement":null},{"id":"W3138061948","doi":"10.1002/adma.202006301","title":"2D‐Berry‐Curvature‐Driven Large Anomalous Hall Effect in Layered Topological Nodal‐Line MnAlGe","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Topological Materials and Phenomena","field":"Physics and Astronomy","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of British Columbia","funders":"H2020 European Research Council; University of Tokyo; Canada First Research Excellence Fund; Canada Research Chairs; Canadian Institutes of Health Research; National Research Council; Deutsche Forschungsgemeinschaft; University of Saskatchewan; Natural Sciences and Engineering Research Council of Canada; Canadian Light Source; Cummings Foundation; Canadian Institute for Advanced Research; British Columbia Knowledge Development Fund; Alexander von Humboldt-Stiftung","keywords":"Berry connection and curvature; Materials science; Condensed matter physics; Hall effect; Curvature; Line (geometry); Topology (electrical circuits); Curie; NODAL; Magnet; Curie temperature; Geometric phase; Magnetic field; Physics; Ferromagnetism; Geometry; Quantum mechanics; Mathematics; Combinatorics","score_opus":0.008288703709865853,"score_gpt":0.262485971342468,"score_spread":0.25419726763260214,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3138061948","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99228865,0.00016861894,0.00040848917,0.00033750926,0.00097401754,0.00033707824,0.0004956653,0.00007713101,0.0049128123],"genre_scores_gemma":[0.9970404,0.000016216623,0.0012142315,0.00033358083,0.00057677407,0.00010924124,0.0002529024,0.000031869906,0.00042479348],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99778,0.00034419182,0.00051774393,0.000547059,0.00016783206,0.0006431489],"domain_scores_gemma":[0.9991186,0.00016023895,0.00016343416,0.0003678993,0.00007188189,0.00011793536],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00035333892,0.00033488046,0.0007562576,0.000038454345,0.00010164267,0.00010867032,0.0002225379,0.0001359976,0.008347547],"category_scores_gemma":[0.00006822946,0.0002644361,0.00010644587,0.00015921443,0.000057622776,0.00015330204,0.00022274714,0.00015764142,0.00017632089],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020236126,0.0003514522,0.005354999,0.00005471003,0.00004832568,0.00011430576,0.00007993568,0.00009825131,0.9237559,0.06882963,0.000059456084,0.0010506847],"study_design_scores_gemma":[0.003850911,0.0005001516,0.019395886,0.00008928468,0.00004065941,0.000007618301,0.000099594545,0.000010243355,0.8588237,0.109458044,0.006997906,0.0007259921],"about_ca_topic_score_codex":0.00009562115,"about_ca_topic_score_gemma":0.000019226209,"teacher_disagreement_score":0.064932175,"about_ca_system_score_codex":0.000042242496,"about_ca_system_score_gemma":0.000043167536,"threshold_uncertainty_score":0.9999808},"labels":[],"label_agreement":null},{"id":"W3153498388","doi":"10.1002/adma.202006863","title":"25 Years of Light‐Emitting Electrochemical Cells: A Flexible and Stretchable Perspective","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Perspective (graphical); Stretchable electronics; Nanotechnology; Electrochemistry; Optoelectronics; Electrode; Electronics; Electrical engineering; Engineering; Visual arts","score_opus":0.014778948262182349,"score_gpt":0.3025044255774914,"score_spread":0.28772547731530906,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3153498388","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.001743565,0.9963191,0.000034544213,0.0000048287916,0.00034371624,0.00045265356,0.00007267189,0.00020800241,0.0008208963],"genre_scores_gemma":[0.001423889,0.9951705,0.0027147897,0.0000027114463,0.00021465134,0.000071212286,0.000033964323,0.00016815274,0.00020017312],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978984,0.00009995557,0.00066342787,0.0004958965,0.0003137977,0.00052852987],"domain_scores_gemma":[0.9988504,0.00026820964,0.00017350337,0.0004514081,0.0001511054,0.00010534832],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003373988,0.00038920887,0.0018293727,0.0001596497,0.000032902,0.00007513919,0.00028554065,0.00032515277,0.00020263555],"category_scores_gemma":[0.00033864475,0.00040327467,0.00014867565,0.0003649418,0.00005139025,0.00011648684,0.00020550034,0.000329171,0.00003468371],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000005390798,0.000032446962,1.3988698e-7,0.024555303,0.00039122324,0.000035839326,0.00034173,0.0000017306749,0.9276878,0.0005873651,0.0002703328,0.046090662],"study_design_scores_gemma":[0.0001389335,0.000027880551,6.217793e-8,0.0054387245,0.00013449069,0.000022600932,0.00010345677,0.0000017786509,0.7571849,0.00004232913,0.23658699,0.0003178548],"about_ca_topic_score_codex":0.0000089741125,"about_ca_topic_score_gemma":5.556986e-7,"teacher_disagreement_score":0.23631667,"about_ca_system_score_codex":0.00039267528,"about_ca_system_score_gemma":0.00016814747,"threshold_uncertainty_score":0.9998419},"labels":[],"label_agreement":null},{"id":"W3155651368","doi":"10.1002/adma.202008424","title":"Toward Planar and Dendrite‐Free Zn Electrodepositions by Regulating Sn‐Crystal Textured Surface","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":329,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Materials science; Nucleation; Wetting; Deposition (geology); Anode; Metal; Surface energy; Texture (cosmology); Dendrite (mathematics); Crystal (programming language); Chemical engineering; Single displacement reaction; Electrode; Crystallography; Metallurgy; Composite material; Physical chemistry; Chemistry","score_opus":0.01020933099133497,"score_gpt":0.24205392150767818,"score_spread":0.2318445905163432,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3155651368","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97801936,0.002278405,0.016595716,0.00046197436,0.0002576613,0.00024793675,0.0004128844,0.0010145496,0.0007115352],"genre_scores_gemma":[0.9597763,0.000614809,0.03901037,0.000046029763,0.00004120766,0.000037059202,0.0001447446,0.000070725364,0.00025876978],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985538,0.000041290165,0.00029367357,0.0003475958,0.00023475348,0.000528885],"domain_scores_gemma":[0.9992046,0.00009812429,0.000041837055,0.0004989511,0.00008206618,0.000074447424],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00009793081,0.00022550485,0.0003099013,0.000048763177,0.0001131359,0.000100869656,0.00022958557,0.00013989498,0.00011928623],"category_scores_gemma":[0.00022672181,0.0002470936,0.000026083993,0.00021150248,0.00006995363,0.00032122186,0.00015660358,0.00018012355,0.00001173861],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016163973,0.000010218661,0.000012349543,0.00009934337,0.00002846972,0.00004453811,0.00003978042,0.0019985563,0.99401826,0.00032971066,0.0018590052,0.0015435992],"study_design_scores_gemma":[0.00047100635,0.00003615882,0.00006854177,0.00005304408,0.000008658736,0.000114024995,0.0001383481,0.00016519206,0.991551,0.004036985,0.0030735128,0.00028351948],"about_ca_topic_score_codex":0.0000050465032,"about_ca_topic_score_gemma":0.00001264297,"teacher_disagreement_score":0.022414654,"about_ca_system_score_codex":0.0001270559,"about_ca_system_score_gemma":0.000018407898,"threshold_uncertainty_score":0.99999815},"labels":[],"label_agreement":null},{"id":"W3159855635","doi":"10.1002/adma.202007663","title":"Multifaceted Design and Emerging Applications of Tissue Adhesives","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Surgical Sutures and Adhesives","field":"Medicine","cited_by":261,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute on Deafness and Other Communication Disorders; Fonds de recherche du Québec – Nature et technologies; Natural Sciences and Engineering Research Council of Canada","keywords":"Adhesive; Materials science; Tissue engineering; Biomedical engineering; Tissue Adhesion; Nanotechnology; Adhesion; Composite material; Medicine","score_opus":0.041509293201831395,"score_gpt":0.3795955211785145,"score_spread":0.3380862279766831,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3159855635","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000060396673,0.9968814,0.0011007007,0.000021285967,0.00011323819,0.0016498985,0.000060173283,0.00003777085,0.00007513695],"genre_scores_gemma":[0.000048314687,0.98286694,0.015876595,0.000019847339,0.00013733869,0.000425631,0.00015239466,0.000046621015,0.00042630872],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9985792,0.00014475005,0.00057922665,0.0003607382,0.00015326226,0.0001828373],"domain_scores_gemma":[0.998787,0.00034098604,0.00034081232,0.00031521477,0.000117158575,0.000098833574],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016788328,0.00027310944,0.0019859658,0.00008381587,0.000043436317,0.000017072729,0.000075921394,0.00017744432,0.0004783572],"category_scores_gemma":[0.00018902471,0.00020289313,0.00013833898,0.00017811752,0.00006580551,0.000040773786,0.00006847861,0.000082925304,0.000014959868],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001523182,0.00004008751,1.3397117e-7,0.012679276,0.00012260643,0.000021811982,0.000026304122,0.000001082587,0.023602854,0.00017801602,0.00003555499,0.96327704],"study_design_scores_gemma":[0.000270237,0.00005803305,0.0000020164955,0.008149563,0.0006210689,0.000059793994,0.000041190713,1.6228441e-7,0.038328182,0.00004159631,0.9522457,0.00018243783],"about_ca_topic_score_codex":0.000004099119,"about_ca_topic_score_gemma":1.0178007e-7,"teacher_disagreement_score":0.9630946,"about_ca_system_score_codex":0.000024288705,"about_ca_system_score_gemma":0.00009368793,"threshold_uncertainty_score":0.82737416},"labels":[],"label_agreement":null},{"id":"W3160225724","doi":"10.1002/adma.202008619","title":"Dual‐Solvent Li‐Ion Solvation Enables High‐Performance Li‐Metal Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":234,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Division of Materials Research; Division of Electrical, Communications and Cyber Systems; Hydro-Québec; U.S. Department of Energy; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Electrolyte; Solvation; Materials science; Dimethoxyethane; Faraday efficiency; Solvent; Lithium (medication); Anode; Ionic liquid; Battery (electricity); Conductivity; Inorganic chemistry; Ionic conductivity; Chemical engineering; Chemistry; Organic chemistry; Physical chemistry; Electrode; Thermodynamics","score_opus":0.007548646470998998,"score_gpt":0.1986753828675417,"score_spread":0.19112673639654268,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3160225724","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9916892,0.00038613862,0.0028844574,0.00015407438,0.0031741266,0.00019067984,0.000105360814,0.0011914067,0.00022455849],"genre_scores_gemma":[0.9912895,0.0018732282,0.0058822134,0.00008654963,0.0002648106,0.00013214437,0.0001839053,0.00007584343,0.0002117913],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99845463,0.000029091478,0.0005030279,0.00033854926,0.00021485338,0.00045986578],"domain_scores_gemma":[0.99924016,0.000037936585,0.0001036994,0.00045683715,0.000118301126,0.000043091182],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014121535,0.00032407694,0.0004640399,0.000085987675,0.00011060274,0.00012874402,0.00014947518,0.00014647598,0.0005841929],"category_scores_gemma":[0.000074306365,0.0003164841,0.000039079983,0.00017252254,0.00006891331,0.00083012745,0.00014636035,0.00008600133,0.00014125781],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031479,0.000021538865,0.000011385279,0.00027049982,0.00003018729,0.000027102458,0.00004191015,0.007483197,0.98471785,0.0006915121,0.00021584175,0.0064574736],"study_design_scores_gemma":[0.00036138584,0.00006127196,0.0006646071,0.00012636819,0.00001748896,0.00002991578,0.00007718296,0.000042868927,0.9836646,0.0018287976,0.012749742,0.0003757872],"about_ca_topic_score_codex":0.0000044489993,"about_ca_topic_score_gemma":0.000005256857,"teacher_disagreement_score":0.0125339,"about_ca_system_score_codex":0.00009373047,"about_ca_system_score_gemma":0.00002002269,"threshold_uncertainty_score":0.9999287},"labels":[],"label_agreement":null},{"id":"W3160620305","doi":"10.1002/adma.202008605","title":"Liquid‐Crystal‐Elastomer‐Actuated Reconfigurable Microscale Kirigami Metastructures","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"H2020 European Research Council; European Research Council; Max-Planck-Gesellschaft; Natural Sciences and Engineering Research Council of Canada; Tsinghua University; National Natural Science Foundation of China; Alexander von Humboldt-Stiftung","keywords":"Microscale chemistry; Materials science; Fabrication; Soft robotics; Nanotechnology; Microactuator; Wearable computer; Smart material; Elastomer; Actuator; Computer science; Artificial intelligence; Embedded system; Composite material","score_opus":0.005705153115874639,"score_gpt":0.20912494326739436,"score_spread":0.20341979015151973,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3160620305","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9832296,0.0010983995,0.005971838,0.00004374097,0.005496481,0.0002880385,0.00044608352,0.0008542691,0.0025715458],"genre_scores_gemma":[0.98130804,0.0010323968,0.015876858,0.00018914936,0.00022609455,0.0000806019,0.0002455122,0.00015635733,0.00088497385],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998217,0.00005363878,0.0005374082,0.00040282562,0.00019872742,0.0005904029],"domain_scores_gemma":[0.99905545,0.000041025,0.000096491756,0.00049151067,0.00017052639,0.00014498935],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016728655,0.0003716087,0.00059784844,0.00006628361,0.00010135038,0.00011150745,0.00018415495,0.00015545373,0.0031050234],"category_scores_gemma":[0.00009912654,0.0003736313,0.00007633491,0.00019292062,0.00003450697,0.00037289757,0.000052997402,0.00010535181,0.00015838769],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007387497,0.000014169191,1.3194429e-7,0.0001452708,0.00005017858,0.00003844212,0.000047472982,0.0040311273,0.9931147,0.00073628774,0.00056648854,0.0011818511],"study_design_scores_gemma":[0.0005154312,0.00005200331,0.000007726364,0.000058540933,0.000031877382,0.000054450702,0.00005062644,0.0000149887355,0.8974583,0.0021997406,0.09916544,0.0003908686],"about_ca_topic_score_codex":0.0000042413917,"about_ca_topic_score_gemma":0.000011974919,"teacher_disagreement_score":0.09859895,"about_ca_system_score_codex":0.00010276159,"about_ca_system_score_gemma":0.0000456779,"threshold_uncertainty_score":0.99987155},"labels":[],"label_agreement":null},{"id":"W3163138155","doi":"10.1002/adma.202170148","title":"Sensing Robots: New Frontiers in 3D Structural Sensing Robots (Adv. Mater. 19/2021)","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gas Sensing Nanomaterials and Sensors","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Robot; 3D printing; Electronics; Nanotechnology; Materials science; Systems engineering; Human–computer interaction; Robotics; Computer science; Artificial intelligence; Mechanical engineering; Engineering; Electrical engineering","score_opus":0.007628883663614144,"score_gpt":0.21442085551981538,"score_spread":0.20679197185620124,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3163138155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9816415,0.0005560973,0.0071848794,0.00017202338,0.009464219,0.00025677655,0.00004167159,0.000413307,0.0002695314],"genre_scores_gemma":[0.73372823,0.0003672525,0.26470733,0.00017529968,0.0005223994,0.0000010005779,0.00010236564,0.00015862535,0.00023751406],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972845,0.0001533553,0.0008378663,0.0005807057,0.0002910927,0.00085250125],"domain_scores_gemma":[0.99895585,0.00005377195,0.00012808139,0.0005347709,0.00010521299,0.00022231624],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00016414151,0.0005125104,0.00093130255,0.00018806146,0.00011368104,0.00032445023,0.00012222168,0.0002231976,0.00021035025],"category_scores_gemma":[0.00016419911,0.00055181875,0.000083123115,0.0003298483,0.000046863002,0.00040374484,0.00008893436,0.0001361951,0.000053492233],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004961359,0.000003782142,0.00006554184,0.00012519798,0.00003846002,0.00048325254,0.00024032682,0.1289504,0.8573812,0.000013563865,0.00061785325,0.012030752],"study_design_scores_gemma":[0.0012506287,0.000020766942,0.00096067914,0.00037418635,0.000039593342,0.00031221495,0.00040533676,0.004912963,0.98835945,0.0012544483,0.0013102394,0.0007994952],"about_ca_topic_score_codex":0.00031930688,"about_ca_topic_score_gemma":0.00016769595,"teacher_disagreement_score":0.25752243,"about_ca_system_score_codex":0.0003036488,"about_ca_system_score_gemma":0.000085273154,"threshold_uncertainty_score":0.99969333},"labels":[],"label_agreement":null},{"id":"W3164215468","doi":"10.1002/adma.202101840","title":"Cells in Slow Motion: Apparent Undercooling Increases Glassy Behavior at Physiological Temperatures","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cellular Mechanics and Interactions","field":"Biochemistry, Genetics and Molecular Biology","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Medical Research Council; Medical Research Council Canada; H2020 European Research Council; European Social Fund; Deutsche Forschungsgemeinschaft","keywords":"Supercooling; Slowdown; Intracellular; Biophysics; Materials science; Viscosity; Chemical physics; Cytoplasm; Intramolecular force; Viscoelasticity; Solvent; Thermodynamics; Chemistry; Stereochemistry; Biochemistry; Biology","score_opus":0.013146652784535591,"score_gpt":0.2624688845637766,"score_spread":0.249322231779241,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3164215468","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99841887,0.0004510411,0.0001769945,0.000027973578,0.00059859897,0.00013677808,0.000087648245,0.0000127505045,0.00008935775],"genre_scores_gemma":[0.99712586,0.0005727303,0.000669484,0.00017089037,0.00017763679,0.00007747898,0.00063048047,0.000016680327,0.0005587743],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990693,0.000079824065,0.00022231483,0.0003487989,0.00008685813,0.00019295508],"domain_scores_gemma":[0.9995456,0.000009285652,0.00006148805,0.00025051972,0.00008249372,0.000050658513],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007907595,0.0001357321,0.00017526653,0.000021164176,0.000072447045,0.00003451263,0.0000791301,0.000099338,0.00034535702],"category_scores_gemma":[0.000070958165,0.000127344,0.000059143662,0.00005370063,0.000017748396,0.0000067213423,0.00015787165,0.000052042586,0.000021913464],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000050106024,0.00016044475,0.000036558424,0.0000119914175,0.000008462053,0.00003205136,0.0000047804565,0.00011457708,0.9990355,0.00013448898,0.00028721182,0.0001238345],"study_design_scores_gemma":[0.00034209722,0.00007135271,0.0008240951,0.000021318709,0.000010749802,0.000032581615,0.00004979933,0.000004617545,0.99053085,0.00009590034,0.007866553,0.00015007282],"about_ca_topic_score_codex":0.00001879049,"about_ca_topic_score_gemma":0.00006214195,"teacher_disagreement_score":0.008504632,"about_ca_system_score_codex":0.000046301982,"about_ca_system_score_gemma":0.000034977864,"threshold_uncertainty_score":0.5192938},"labels":[],"label_agreement":null},{"id":"W3164413242","doi":"10.1002/adma.202101682","title":"Extreme Biomimetics: Designing of the First Nanostructured 3D Spongin–Atacamite Composite and its Application","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Calcium Carbonate Crystallization and Inhibition","field":"Materials Science","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University of Toronto Mississauga; Narodowa Agencja Wymiany Akademickiej; Sächsisches Staatsministerium für Wissenschaft und Kunst; Baqiyatallah University of Medical Sciences; ITMO University; Ikerbasque, Basque Foundation for Science; University of Toronto; Deutsche Forschungsgemeinschaft; Alexander von Humboldt-Stiftung","keywords":"Materials science; Nanotechnology; Composite number; Spectroscopy; Biofabrication; Nanomaterials; Biomimetics; Transmission electron microscopy; X-ray photoelectron spectroscopy; Chemical engineering; Composite material","score_opus":0.012764325258814197,"score_gpt":0.22685589262103592,"score_spread":0.21409156736222174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3164413242","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99504685,0.00033799472,0.003231334,0.00018152012,0.00055929687,0.00030408756,0.00013801498,0.00004759975,0.00015328698],"genre_scores_gemma":[0.9962619,0.00007535264,0.0032748203,0.00018605209,0.000042978343,0.00002343643,0.00005008317,0.000017370037,0.00006803847],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998949,0.00008187521,0.00033659802,0.00027065573,0.00021007234,0.00015183171],"domain_scores_gemma":[0.9992168,0.00003887786,0.00022879087,0.0002522628,0.00022710438,0.000036160647],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020370433,0.00012471412,0.00020576312,0.000034736455,0.000132752,0.00006394558,0.000112387366,0.00006442203,0.00021615229],"category_scores_gemma":[0.000103941595,0.00010151059,0.00002780414,0.00017628238,0.000068454836,0.00015982387,0.00012196242,0.000026843843,0.000009207265],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034918008,0.000012249534,0.000021765596,0.00008772595,0.0000029727044,0.0000012508027,0.00008688597,0.00012584275,0.997915,0.0014542792,0.000011889635,0.00024516298],"study_design_scores_gemma":[0.0003930267,0.000011969564,0.0010454779,0.00008585542,0.00001871857,0.000018973333,0.000025439247,0.00011481023,0.99538356,0.0006179029,0.0021657061,0.00011858008],"about_ca_topic_score_codex":0.000005391167,"about_ca_topic_score_gemma":0.000008692613,"teacher_disagreement_score":0.002531517,"about_ca_system_score_codex":0.000035074638,"about_ca_system_score_gemma":0.000031008767,"threshold_uncertainty_score":0.41394818},"labels":[],"label_agreement":null},{"id":"W3164825177","doi":"10.1002/adma.202006287","title":"Programmable Assembly of π‐Conjugated Polymers","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Supramolecular Self-Assembly in Materials","field":"Materials Science","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; University of Toronto; Canada Foundation for Innovation","keywords":"Polymer; Materials science; Conjugated system; Nanotechnology; Crystallinity; Crystallization; Organic electronics; Crystallization of polymers; Polymer architecture; Self-assembly; Chemical engineering; Composite material","score_opus":0.02777495862962009,"score_gpt":0.3340960015935629,"score_spread":0.3063210429639428,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3164825177","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.005962655,0.9854166,0.00007018276,0.000008687294,0.004778821,0.002031243,0.00075138727,0.00039210418,0.0005883391],"genre_scores_gemma":[0.00027315444,0.98734665,0.009876506,0.00004027162,0.00028416046,0.0008018647,0.0006819419,0.00032801967,0.0003674189],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9921633,0.0014492773,0.0028007992,0.001415475,0.0009925481,0.0011785814],"domain_scores_gemma":[0.994636,0.00035917296,0.0024065154,0.0018382184,0.0005279007,0.00023220349],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0018847072,0.0011783396,0.005964716,0.00031719284,0.0001366538,0.00044252916,0.0013083245,0.0007678626,0.005247009],"category_scores_gemma":[0.0007733682,0.0010449571,0.00064180844,0.00070455566,0.0002143235,0.00046192517,0.00060067396,0.00018761713,0.00082380284],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002647649,0.00012894279,5.2258656e-8,0.014351781,0.00016053637,0.00011724102,0.000026541495,0.0000026846517,0.8473988,0.00064330583,0.00016926067,0.13697433],"study_design_scores_gemma":[0.0002603983,0.00008455388,9.8511585e-8,0.007345047,0.00056823576,0.00008030313,0.000020679687,5.4936837e-8,0.5272308,0.000039242823,0.46374682,0.0006237507],"about_ca_topic_score_codex":0.00009075219,"about_ca_topic_score_gemma":0.0000042824418,"teacher_disagreement_score":0.46357757,"about_ca_system_score_codex":0.00026605275,"about_ca_system_score_gemma":0.0010045719,"threshold_uncertainty_score":0.99995416},"labels":[],"label_agreement":null},{"id":"W3166417682","doi":"10.1002/adma.202007285","title":"Photoelectrochemical Water‐Splitting Using CuO‐Based Electrodes for Hydrogen Production: A Review","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Copper-based nanomaterials and applications","field":"Materials Science","cited_by":295,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Water splitting; Photocurrent; Materials science; Heterojunction; Hydrogen production; Band gap; Photocatalysis; Nanocomposite; Nanotechnology; Photocatalytic water splitting; Electrode; Doping; Optoelectronics; Hydrogen; Chemical engineering; Catalysis; Physical chemistry; Chemistry","score_opus":0.05720323928627943,"score_gpt":0.3741090601316147,"score_spread":0.3169058208453353,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3166417682","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.008349711,0.9844151,0.00046788182,0.00013817828,0.0009100315,0.0048069553,0.0006076721,0.00029099404,0.00001343349],"genre_scores_gemma":[0.00014075161,0.97842366,0.012626116,0.00022345096,0.0010592808,0.0052870503,0.0019119346,0.00022575483,0.000102009755],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9944567,0.00039925554,0.0019360478,0.0016336555,0.00042718652,0.0011471608],"domain_scores_gemma":[0.99704224,0.00019506898,0.00091881136,0.0012325156,0.0004487394,0.00016261658],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0016422825,0.0009141383,0.0036377704,0.00012947824,0.00043312967,0.00022314751,0.0006563582,0.0003378328,0.0013139609],"category_scores_gemma":[0.0005161208,0.00070164737,0.0006177638,0.0003865421,0.000101147256,0.00023024739,0.00018316695,0.0001423118,0.00012578818],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001985494,0.000077232944,6.13914e-9,0.04678558,0.000034072265,0.0000037666118,0.000004844152,0.0000054215234,0.9321779,0.000050274895,0.00027596933,0.02056507],"study_design_scores_gemma":[0.00012965394,0.00003519237,1.2893789e-9,0.021843862,0.0006271158,0.00006179919,0.0000012153481,7.8223934e-7,0.5416587,0.000055162167,0.43512088,0.000465622],"about_ca_topic_score_codex":0.000010311497,"about_ca_topic_score_gemma":0.0000013209071,"teacher_disagreement_score":0.4348449,"about_ca_system_score_codex":0.00047376414,"about_ca_system_score_gemma":0.00080356136,"threshold_uncertainty_score":0.999599},"labels":[],"label_agreement":null},{"id":"W3167657510","doi":"10.1002/adma.202007885","title":"Direct Integration of Strained‐Pt Catalysts into Proton‐Exchange‐Membrane Fuel Cells with Atomic Layer Deposition","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"SLAC National Accelerator Laboratory; Basic Energy Sciences; Division of Electrical, Communications and Cyber Systems; Office of Science; Austrian Science Fund; U.S. Department of Energy; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Materials science; Proton exchange membrane fuel cell; Atomic layer deposition; Catalysis; Layer (electronics); Deposition (geology); Fuel cells; Chemical engineering; Proton; Nanotechnology; Membrane; Organic chemistry","score_opus":0.006688173663730529,"score_gpt":0.2261362677869792,"score_spread":0.21944809412324867,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3167657510","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99454594,0.0002550376,0.001009492,0.00007355064,0.00033132694,0.0004703897,0.00001788188,0.00015006188,0.0031463264],"genre_scores_gemma":[0.9937815,0.00021122063,0.004361191,0.00006512885,0.000087444496,0.00019697162,0.0006818277,0.00006552514,0.00054917176],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983025,0.0001382808,0.00043919007,0.00045612804,0.00035825247,0.00030565524],"domain_scores_gemma":[0.99865323,0.000046583304,0.00029409956,0.00048981415,0.00044235028,0.00007391851],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023645705,0.000277985,0.00047116075,0.00012048588,0.00006971284,0.000040286104,0.000157968,0.00013152891,0.00025103215],"category_scores_gemma":[0.000058358848,0.00024101557,0.00006618032,0.0003344038,0.000056784767,0.000461248,0.00006312624,0.00007063239,0.000044940538],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040253595,0.00007509934,0.0000035161256,0.00054661103,0.00007212367,0.000037380418,0.00035259372,0.0003011449,0.99411803,0.0017390433,0.000023941871,0.0023279698],"study_design_scores_gemma":[0.0010017614,0.00018918868,0.000025158319,0.00021072327,0.00007378373,0.000027454626,0.00010014396,0.000013778458,0.99611425,0.0010851781,0.0008832185,0.00027534552],"about_ca_topic_score_codex":0.0010566352,"about_ca_topic_score_gemma":0.0026009667,"teacher_disagreement_score":0.003351699,"about_ca_system_score_codex":0.00023217336,"about_ca_system_score_gemma":0.00012512284,"threshold_uncertainty_score":0.98283297},"labels":[],"label_agreement":null},{"id":"W3172695997","doi":"10.1002/adma.202006004","title":"Recent Progress on Perovskite Surfaces and Interfaces in Optoelectronic Devices","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":194,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Natural Science Foundation of China","keywords":"Materials science; Heterojunction; Passivation; Perovskite (structure); Optoelectronics; Semiconductor; Band gap; Nanotechnology; Diode; Chemical engineering; Layer (electronics)","score_opus":0.022222961976285736,"score_gpt":0.3174808938925397,"score_spread":0.29525793191625394,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3172695997","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.03935779,0.95891505,0.0000018520861,0.000020287174,0.0004816952,0.0007098381,0.00017984446,0.0001648338,0.0001688267],"genre_scores_gemma":[0.003927033,0.99461895,0.0003275104,0.0000106055,0.00009065233,0.00067652296,0.0002140199,0.00009953066,0.000035166955],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9982397,0.00010310164,0.0006591611,0.00045812712,0.00013656504,0.00040333194],"domain_scores_gemma":[0.99933517,0.00008675111,0.00014318581,0.00033813433,0.000037072812,0.000059692913],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022791317,0.00048181062,0.0015002892,0.00012148713,0.0000424312,0.00021931343,0.00022052255,0.00019918682,0.0001917113],"category_scores_gemma":[0.000023539562,0.00041207505,0.000051122905,0.00021223747,0.000044697725,0.00013021336,0.00008745148,0.00014991354,0.000057157387],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000043369078,0.000029721354,4.350187e-7,0.0076265316,0.000057436497,0.000007014488,0.000034261764,0.00010890106,0.004461656,0.00023260507,0.00007199199,0.9873651],"study_design_scores_gemma":[0.0001285764,0.000035475037,0.000007854613,0.008705719,0.00006796332,0.000011935074,0.00001139358,0.0000031109385,0.008824055,0.00003055259,0.98175025,0.0004231019],"about_ca_topic_score_codex":0.0000024798487,"about_ca_topic_score_gemma":0.000026252801,"teacher_disagreement_score":0.986942,"about_ca_system_score_codex":0.0001979658,"about_ca_system_score_gemma":0.000054004515,"threshold_uncertainty_score":0.9998331},"labels":[],"label_agreement":null},{"id":"W3175926485","doi":"10.1002/adma.202170195","title":"Kirigami Metastructures: Liquid‐Crystal‐Elastomer‐Actuated Reconfigurable Microscale Kirigami Metastructures (Adv. Mater. 25/2021)","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Microscale chemistry; Materials science; Fabrication; Liquid crystal; Elastomer; Metamaterial; Nanotechnology; Optoelectronics; Composite material","score_opus":0.006030215661936095,"score_gpt":0.2180765480768492,"score_spread":0.2120463324149131,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3175926485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9748306,0.0022052706,0.0068886136,0.00009176193,0.010194336,0.0007593415,0.001846907,0.0011124746,0.0020706498],"genre_scores_gemma":[0.9630494,0.0020205576,0.030932868,0.00034423431,0.0005690323,0.0002070402,0.0009877121,0.00040945623,0.0014796753],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9958322,0.00017417864,0.0012510077,0.00097022747,0.0004851775,0.0012872333],"domain_scores_gemma":[0.9978061,0.00009351762,0.00029846642,0.0011110664,0.00034840338,0.000342492],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00037231253,0.0009536128,0.0014530048,0.0001904203,0.00024702988,0.00033394483,0.0004996651,0.00037065544,0.009091192],"category_scores_gemma":[0.00019004302,0.0009204152,0.00021701878,0.00043441975,0.000106225314,0.00079240534,0.0001620518,0.00027672126,0.00027053838],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014553411,0.000028932462,4.7378458e-7,0.00038729428,0.00021614577,0.0001116407,0.00012284107,0.0062599233,0.989117,0.0010800683,0.0009970778,0.0015330601],"study_design_scores_gemma":[0.0010463147,0.00010315923,0.000024142315,0.00014431456,0.0001372499,0.00018591456,0.00013762803,0.000027770195,0.8741098,0.0042473534,0.11895203,0.00088431843],"about_ca_topic_score_codex":0.000016950235,"about_ca_topic_score_gemma":0.000029891027,"teacher_disagreement_score":0.11795495,"about_ca_system_score_codex":0.00023578847,"about_ca_system_score_gemma":0.00010775945,"threshold_uncertainty_score":0.9993246},"labels":[],"label_agreement":null},{"id":"W3179087181","doi":"10.1002/adma.202170218","title":"Plant‐Derived Hydrogels: Plant Nanomaterials and Inspiration from Nature: Water Interactions and Hierarchically Structured Hydrogels (Adv. Mater. 28/2021)","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Self-healing hydrogels; Nanomaterials; Materials science; Ionic bonding; Swelling; Nanotechnology; Chemical engineering; Porous medium; Biomimetics; Diffusion; Porosity; Water transport; Composite material; Polymer chemistry; Organic chemistry; Chemistry; Water flow; Environmental engineering","score_opus":0.009883480346191562,"score_gpt":0.24525851519177488,"score_spread":0.2353750348455833,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3179087181","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945808,0.00029081802,0.00041201763,0.00026987502,0.0018605868,0.00034473947,0.0020477055,0.00014004768,0.00005341483],"genre_scores_gemma":[0.99148005,0.00021747802,0.006441896,0.000219867,0.00023118255,0.00007529712,0.0012385172,0.00004571616,0.00005000989],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99750865,0.00030805398,0.0006795064,0.0007591426,0.00028433424,0.000460345],"domain_scores_gemma":[0.99893063,0.00014690637,0.00018585003,0.00043622177,0.0001303935,0.00017001682],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00031168672,0.00034312345,0.00052502315,0.000082131824,0.0003372978,0.0005174066,0.00015017904,0.0002095669,0.0017315388],"category_scores_gemma":[0.0001839618,0.0002721305,0.00003439181,0.000090527916,0.00013893362,0.0007663643,0.0002813863,0.000121587436,0.000058909496],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023313478,0.000040379193,0.000070589005,0.000072676536,0.000022868673,0.000048853854,0.0006105898,0.000059008446,0.9974896,0.0004287162,0.00002409702,0.00089949736],"study_design_scores_gemma":[0.000821609,0.00006142102,0.0009096548,0.00011860497,0.00004027628,0.00011268287,0.000082564,0.00006066881,0.98877615,0.0037764455,0.004878452,0.0003614764],"about_ca_topic_score_codex":0.00006136773,"about_ca_topic_score_gemma":0.00013002171,"teacher_disagreement_score":0.008713445,"about_ca_system_score_codex":0.000053322266,"about_ca_system_score_gemma":0.000047785386,"threshold_uncertainty_score":0.99997306},"labels":[],"label_agreement":null},{"id":"W3179866822","doi":"10.1002/adma.202101056","title":"Facet‐Oriented Coupling Enables Fast and Sensitive Colloidal Quantum Dot Photodetectors","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; University of Toronto; Canada Foundation for Innovation; Government of Ontario","keywords":"Materials science; Passivation; Quantum dot; Photodetector; Facet (psychology); Optoelectronics; Colloid; Coupling (piping); Nanotechnology; Chemical engineering; Layer (electronics)","score_opus":0.012706477586054433,"score_gpt":0.2334406149073926,"score_spread":0.22073413732133818,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3179866822","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968512,0.00069247896,0.00021869314,0.00011876937,0.0012847474,0.00025226898,0.00026202554,0.00015252731,0.00016731198],"genre_scores_gemma":[0.9970863,0.00038064248,0.0018252777,0.00015392184,0.000110324036,0.000047613798,0.000018331679,0.000042913798,0.00033471713],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980376,0.00013292489,0.0004447811,0.00058319053,0.0003202783,0.00048123315],"domain_scores_gemma":[0.9989674,0.00013948741,0.00018046926,0.0003162047,0.0002814988,0.00011492749],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005414574,0.00028436386,0.00053590233,0.00005045121,0.00031096052,0.0002598628,0.000110843306,0.000097565564,0.0009003646],"category_scores_gemma":[0.0004050123,0.0002389222,0.000040374012,0.00012653857,0.00017615999,0.000366557,0.00017312211,0.00006107932,0.00011729167],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014589673,0.00003097257,0.000016872431,0.0000810132,0.000013658101,0.000047112404,0.00040859278,0.00016282397,0.99810785,0.00068178575,0.000056506484,0.00024690497],"study_design_scores_gemma":[0.00044647165,0.000076280485,0.0001915211,0.00014163913,0.000024903742,0.000043596963,0.001553428,0.00007153835,0.9941198,0.0002786731,0.00271757,0.00033457117],"about_ca_topic_score_codex":0.00006733341,"about_ca_topic_score_gemma":0.000032919645,"teacher_disagreement_score":0.0039880546,"about_ca_system_score_codex":0.000058528363,"about_ca_system_score_gemma":0.00009491635,"threshold_uncertainty_score":0.9858361},"labels":[],"label_agreement":null},{"id":"W3183939363","doi":"10.1002/adma.202101259","title":"New Insights into the High‐Performance Black Phosphorus Anode for Lithium‐Ion Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":118,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"BP (Canada); Canadian Light Source (Canada); Western University","funders":"Argonne National Laboratory; Canada Foundation for Innovation","keywords":"Materials science; Anode; X-ray absorption spectroscopy; Electrochemistry; Lithium (medication); Chemical engineering; Carbon black; Graphite; Electrode; Absorption spectroscopy; Analytical Chemistry (journal); Composite material; Physical chemistry; Chemistry","score_opus":0.009152434962021045,"score_gpt":0.23191442847294874,"score_spread":0.2227619935109277,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3183939363","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97395116,0.0008644535,0.01771288,0.00031390748,0.0058798715,0.00056715164,0.00005098785,0.00035304757,0.0003065414],"genre_scores_gemma":[0.96578646,0.0016535603,0.02936948,0.0006129257,0.00068984815,0.00025936356,0.00013038484,0.000128256,0.0013697494],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99830544,0.00004925996,0.000572435,0.00037165155,0.0002446593,0.00045653153],"domain_scores_gemma":[0.99888605,0.00011934927,0.000111353795,0.0006735618,0.0001350735,0.000074609365],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00017643266,0.0003563023,0.00045465617,0.000041902753,0.00018315537,0.00017060999,0.0003279804,0.00010720945,0.00054809847],"category_scores_gemma":[0.000090512774,0.00028868928,0.000035628997,0.00015151736,0.000079002275,0.0006519198,0.00014004963,0.000071663126,0.00016988038],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009987533,0.000011537127,0.0000076006745,0.00024952518,0.000043359665,0.000005044025,0.0008313836,0.008368347,0.9789991,0.00083461567,0.0028280045,0.007721657],"study_design_scores_gemma":[0.000653984,0.000054522734,0.00025941955,0.00010605003,0.000025113344,0.000004624209,0.000093259165,0.000033686083,0.888608,0.0062051807,0.10362324,0.0003329631],"about_ca_topic_score_codex":0.000012754391,"about_ca_topic_score_gemma":0.000008082116,"teacher_disagreement_score":0.10079523,"about_ca_system_score_codex":0.00013943468,"about_ca_system_score_gemma":0.000050463437,"threshold_uncertainty_score":0.99995655},"labels":[],"label_agreement":null},{"id":"W3188287295","doi":"10.1002/adma.202100288","title":"Surface‐Anisotropic Janus Silicon Quantum Dots via Masking on 2D Silicon Nanosheets","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; International Graduate School of Science and Engineering; Canada First Research Excellence Fund; Technische Universität München; Deutsche Forschungsgemeinschaft","keywords":"Materials science; Janus; Masking (illustration); Silicon; Nanotechnology; Quantum dot; Optoelectronics; Anisotropy; Surface (topology); Optics","score_opus":0.01880862863751355,"score_gpt":0.27119141879171255,"score_spread":0.252382790154199,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3188287295","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99537987,0.00017506814,0.0008240201,0.00016262358,0.0024299596,0.000270899,0.0000684415,0.00022685302,0.0004622564],"genre_scores_gemma":[0.99785453,0.00008151224,0.0013341643,0.0002215673,0.00012525145,0.000028599708,0.000044151402,0.00004690487,0.00026332805],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976657,0.0002301254,0.0005246258,0.0006422644,0.00039089393,0.000546372],"domain_scores_gemma":[0.9987043,0.00012848199,0.00019529578,0.0006449837,0.00019748007,0.00012945593],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00034074247,0.00027751346,0.0004146596,0.00004464251,0.00025586787,0.00018883328,0.00020816359,0.00011482659,0.0018585369],"category_scores_gemma":[0.0003009376,0.00026157883,0.000059448597,0.00020584167,0.00006951001,0.0003676367,0.00013545096,0.00006746376,0.00075816846],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009373849,0.00009838191,0.00012332336,0.00007329936,0.0000056687923,0.000043253327,0.00015075547,0.004119497,0.9928855,0.0013406997,0.000043943604,0.001021973],"study_design_scores_gemma":[0.0006466978,0.00013565434,0.002531788,0.00011075533,0.00001532702,0.000019593203,0.00006931573,0.0002025514,0.99160224,0.0016555067,0.002699512,0.00031105828],"about_ca_topic_score_codex":0.000047883714,"about_ca_topic_score_gemma":0.000027205559,"teacher_disagreement_score":0.0039169453,"about_ca_system_score_codex":0.000120565215,"about_ca_system_score_gemma":0.00006975779,"threshold_uncertainty_score":0.99998367},"labels":[],"label_agreement":null},{"id":"W3193524760","doi":"10.1002/adma.202102246","title":"Promoting Energy Transfer via Manipulation of Crystallization Kinetics of Quasi‐2D Perovskites for Efficient Green Light‐Emitting Diodes","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":171,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China; Tencent","keywords":"Materials science; Nucleation; Light-emitting diode; Perovskite (structure); Chemical physics; Exciton; Diode; Crystallization; Kinetics; Grain boundary; Optoelectronics; Crystallography; Chemical engineering; Condensed matter physics; Microstructure; Thermodynamics; Chemistry; Physics","score_opus":0.009639404677078904,"score_gpt":0.22172772154603956,"score_spread":0.21208831686896065,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3193524760","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.715706,0.0001138915,0.28361866,0.000020324085,0.00012987373,0.00017812822,0.00013322935,0.00005576735,0.000044118773],"genre_scores_gemma":[0.99119544,0.00004459302,0.0082966015,0.0000061706187,0.00008347099,0.000091521484,0.00022272926,0.000043847354,0.000015606087],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989293,0.000024003795,0.00057538843,0.00017298192,0.00012957641,0.00016870444],"domain_scores_gemma":[0.9994346,0.00004348775,0.00009099856,0.0001824675,0.0002200364,0.000028390925],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011821141,0.00014088473,0.00030991493,0.00004574925,0.00003474164,0.000021134616,0.00007598317,0.000068195455,0.00004307084],"category_scores_gemma":[0.000039399558,0.0001463592,0.000049636154,0.0001234435,0.000016425027,0.00007321201,0.000018400635,0.00001482083,5.2174795e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012240441,0.00006201768,0.0000046293294,0.0006897542,0.000017710498,2.6243063e-7,0.00035557526,0.019195668,0.97570425,0.0016002404,0.000001686785,0.0023559614],"study_design_scores_gemma":[0.00029677077,0.000041605803,0.00012261943,0.0001294252,0.000032273547,0.0000020189675,0.000038836202,0.0057540014,0.9923059,0.00060288794,0.0005355895,0.00013807748],"about_ca_topic_score_codex":0.000011974606,"about_ca_topic_score_gemma":0.00001038103,"teacher_disagreement_score":0.27548945,"about_ca_system_score_codex":0.000028191309,"about_ca_system_score_gemma":0.000008006954,"threshold_uncertainty_score":0.5968355},"labels":[],"label_agreement":null},{"id":"W3195080911","doi":"10.1002/adma.202103394","title":"Passivation of the Buried Interface via Preferential Crystallization of 2D Perovskite on Metal Oxide Transport Layers","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":161,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Office of Naval Research; U.S. Navy","keywords":"Passivation; Perovskite (structure); Materials science; Crystallization; Energy conversion efficiency; Substrate (aquarium); Oxide; Photoluminescence; Carrier lifetime; Layer (electronics); Metal; Optoelectronics; Chemical engineering; Nanotechnology; Silicon; Metallurgy","score_opus":0.007496903088928414,"score_gpt":0.21662357020443412,"score_spread":0.2091266671155057,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3195080911","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97701824,0.000029282812,0.021767868,0.00003409518,0.00038063354,0.0002076955,0.00021304426,0.000057186433,0.00029194818],"genre_scores_gemma":[0.99882257,0.000040114995,0.00085450447,0.000011409793,0.00003916685,0.000042535154,0.00008581837,0.000027151114,0.000076735196],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991209,0.00003370326,0.0004182771,0.00014270961,0.00016789239,0.00011651304],"domain_scores_gemma":[0.9994403,0.000019341544,0.00012606275,0.00028477973,0.00010845053,0.000021081303],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000081842496,0.00012666766,0.00024626625,0.00002773528,0.000030706346,0.000010984126,0.00011853498,0.000057360223,0.00025660533],"category_scores_gemma":[0.00002233962,0.00010443442,0.000053684536,0.00012828242,0.000031926455,0.00010885622,0.000020786758,0.000032216358,0.0000033821887],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028933875,0.00003423888,0.000009863323,0.00014358747,0.000029514853,1.8557284e-7,0.00008948053,0.027921785,0.9707306,0.0008011885,0.00001553911,0.00019508129],"study_design_scores_gemma":[0.00029289944,0.000016583304,0.0030144202,0.00007383232,0.000031994114,0.0000010803952,0.00002787434,0.00006841637,0.99462223,0.00038338502,0.0013707267,0.00009654203],"about_ca_topic_score_codex":0.000010071007,"about_ca_topic_score_gemma":0.00001231384,"teacher_disagreement_score":0.027853368,"about_ca_system_score_codex":0.000029093788,"about_ca_system_score_gemma":0.00001682234,"threshold_uncertainty_score":0.4258712},"labels":[],"label_agreement":null},{"id":"W3197202575","doi":"10.1002/adma.202104265","title":"Tunable 2D Group‐III Metal Alloys","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Air Force Office of Scientific Research; Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft; Empire State Development's Division of Science, Technology and Innovation","keywords":"Materials science; Gallium; Indium; Optoelectronics; Dielectric; Graphene; Plasmon; Phase (matter); Metal; Alloy; Nanotechnology; Chemical physics; Composite material; Metallurgy","score_opus":0.01603508411609334,"score_gpt":0.2873131590872375,"score_spread":0.27127807497114415,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3197202575","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9935814,0.0003720559,0.001932728,0.0003325614,0.00047129233,0.00025752917,0.00013508742,0.00016922533,0.0027480852],"genre_scores_gemma":[0.9852106,0.0001800836,0.012274747,0.0001898764,0.00013309873,0.00025744725,0.00009030177,0.00002693552,0.0016369262],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982656,0.000111263726,0.00030853247,0.0004361967,0.00036768895,0.0005107166],"domain_scores_gemma":[0.99897873,0.00006647914,0.00008467432,0.0005152223,0.00019881043,0.00015606974],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00046983518,0.00015221373,0.00028644988,0.000041394036,0.00020294212,0.00017159707,0.00027101135,0.000052746815,0.0062972712],"category_scores_gemma":[0.00014633406,0.00013907203,0.000059187103,0.00022900142,0.000087784894,0.00036176245,0.00018108283,0.000049681737,0.0010730698],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002503206,0.00006901876,0.000003129861,0.00002373112,0.000007973263,0.000020865558,0.000022241402,0.000020759764,0.9839422,0.014864726,0.0006170179,0.00038326994],"study_design_scores_gemma":[0.00042282965,0.000030562314,0.00017365489,0.000014388485,0.000011205595,0.00001739392,0.000084429186,0.0000014618876,0.9573213,0.010615203,0.031147541,0.0001600224],"about_ca_topic_score_codex":0.00006080916,"about_ca_topic_score_gemma":0.000030020703,"teacher_disagreement_score":0.030530524,"about_ca_system_score_codex":0.000039191527,"about_ca_system_score_gemma":0.000088192246,"threshold_uncertainty_score":0.9997047},"labels":[],"label_agreement":null},{"id":"W3197311836","doi":"10.1002/adma.202102423","title":"Programmable Multistable Perforated Shellular","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":149,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Axis Photonique (Canada); McGill University","funders":"China Scholarship Council","keywords":"Multistability; Bistability; Hinge; Metamaterial; Dissipation; Materials science; Stiffness; Morphing; Soft robotics; Damper; Smart material; Instability; Rigidity (electromagnetism); Actuator; Nanotechnology; Structural engineering; Computer science; Optoelectronics; Composite material; Mechanics; Engineering; Nonlinear system; Physics","score_opus":0.0052142103813294476,"score_gpt":0.19220879850881,"score_spread":0.18699458812748057,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3197311836","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9575156,0.0015936119,0.031863894,0.000028103983,0.0042026723,0.00046716968,0.00016948824,0.0014651944,0.002694291],"genre_scores_gemma":[0.94014174,0.0008206042,0.056887817,0.000057935205,0.00016595557,0.00013904231,0.00020773885,0.00011973932,0.0014594219],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987797,0.00002554219,0.0003197826,0.00026151014,0.00015402811,0.00045943417],"domain_scores_gemma":[0.9993464,0.000014638591,0.000042073145,0.0003441476,0.00015946156,0.00009331409],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014253569,0.00022000975,0.00033588166,0.00002823872,0.000077805526,0.00010224876,0.00010300969,0.00009231626,0.0010812689],"category_scores_gemma":[0.00005967623,0.00022884819,0.000033527867,0.00016112028,0.00001572963,0.00030902767,0.000052098258,0.000057670444,0.00017924621],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015469044,0.000019896786,8.0992174e-7,0.00015450017,0.000017982311,0.00006473195,0.000023460729,0.009224215,0.98514163,0.0015311779,0.00014475535,0.0036613415],"study_design_scores_gemma":[0.00046297314,0.000021388087,0.0000040245927,0.000040771203,0.000012793235,0.000023297287,0.000043695934,0.00052512303,0.9032069,0.0016988667,0.093701035,0.00025912168],"about_ca_topic_score_codex":0.0000035031683,"about_ca_topic_score_gemma":0.000005129552,"teacher_disagreement_score":0.09355628,"about_ca_system_score_codex":0.000075076634,"about_ca_system_score_gemma":0.00003484555,"threshold_uncertainty_score":0.99983186},"labels":[],"label_agreement":null},{"id":"W3198966846","doi":"10.1002/adma.202103812","title":"In Situ Formation of Nano Ni–Co Oxyhydroxide Enables Water Oxidation Electrocatalysts Durable at High Current Densities","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; Queen's University; McMaster University; University of Toronto","funders":"Argonne National Laboratory; Office of Science; Natural Sciences and Engineering Research Council of Canada; McMaster University; Queen's University; Compute Canada; Canadian Light Source; U.S. Department of Energy","keywords":"Overpotential; Electrocatalyst; Materials science; Oxygen evolution; Nanocrystalline material; Chemical engineering; Electrolysis; Water splitting; Faraday efficiency; Electrolyte; Inorganic chemistry; Electrochemistry; Electrode; Catalysis; Nanotechnology; Physical chemistry; Chemistry","score_opus":0.006360014885938812,"score_gpt":0.22590037814194427,"score_spread":0.21954036325600546,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3198966846","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980546,0.00033472967,0.00013433686,0.00012518685,0.0005708935,0.00014472198,0.000005617514,0.000074276984,0.0005556396],"genre_scores_gemma":[0.99615884,0.00047795125,0.0003388512,0.00006334426,0.00007031789,0.000055098873,0.0016024921,0.000041234016,0.0011918762],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978535,0.00015097785,0.0006800988,0.00036230398,0.0004279521,0.0005251778],"domain_scores_gemma":[0.9989589,0.00004274284,0.00023198515,0.00041343857,0.0003023112,0.00005063427],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000345299,0.00025197119,0.0004644662,0.00020938953,0.00010036688,0.000033999237,0.00015450953,0.00011271408,0.000361252],"category_scores_gemma":[0.000087965105,0.00022562416,0.000060850864,0.0002180404,0.000037769252,0.001221068,0.00011448432,0.0000658903,0.00017882964],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017776873,0.000054371347,0.000007806443,0.00021247554,0.000020364832,0.0000160039,0.00026378917,0.0010372187,0.9949224,0.0026566128,0.00019341435,0.00043778482],"study_design_scores_gemma":[0.0009006562,0.00005086866,0.00004656398,0.00010403075,0.000028234874,0.00003555912,0.00006520023,0.000007745729,0.9885881,0.0033052997,0.006606694,0.00026108057],"about_ca_topic_score_codex":0.00046808412,"about_ca_topic_score_gemma":0.0022182313,"teacher_disagreement_score":0.006413279,"about_ca_system_score_codex":0.00066734693,"about_ca_system_score_gemma":0.000065059496,"threshold_uncertainty_score":0.92006856},"labels":[],"label_agreement":null},{"id":"W3200377389","doi":"10.1002/adma.202102520","title":"The Food–Materials Nexus: Next Generation Bioplastics and Advanced Materials from Agri‐Food Residues","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"biodegradable polymer synthesis and properties","field":"Materials Science","cited_by":171,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"European Research Council; Sistema de Laboratórios em Nanotecnologias, Universidade Federal de Viçosa; European Commission; Ministério da Ciência, Tecnologia e Inovação; Laboratório Nacional de Nanotecnologia; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Canada Foundation for Innovation; Suomalainen Tiedeakatemia; Fundação de Amparo à Pesquisa do Estado de São Paulo","keywords":"Bioplastic; Materials science; Nexus (standard); Food packaging; Nanotechnology; Polymer science; Waste management; Engineering; Mechanical engineering","score_opus":0.08196333928224321,"score_gpt":0.28324714897074493,"score_spread":0.20128380968850174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3200377389","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.06293308,0.91546124,0.00003597276,0.00009202936,0.010079732,0.0013201742,0.009820614,0.00022773973,0.000029387596],"genre_scores_gemma":[0.004322452,0.98703647,0.0035513588,0.000104358194,0.0019501887,0.0010090127,0.0014997402,0.00026583453,0.00026055967],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99152946,0.0019707575,0.002799008,0.001737038,0.0007822713,0.0011814754],"domain_scores_gemma":[0.994835,0.0010807683,0.0018717387,0.0016569175,0.00031322305,0.00024232616],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0016232743,0.0014912827,0.0041850894,0.00014492859,0.0011859181,0.0036516972,0.0010877489,0.00079592655,0.0018784829],"category_scores_gemma":[0.00091437495,0.00095279154,0.0002365536,0.00024864526,0.0004495813,0.00097171136,0.0007687302,0.0001969173,0.0002771051],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000078216704,0.000031647003,3.1181017e-8,0.002038375,0.00015598151,0.000008102923,0.000088371096,5.564244e-7,0.76906824,0.0005267006,0.00035196866,0.22765182],"study_design_scores_gemma":[0.00023493505,0.0001933856,6.598055e-7,0.0038954804,0.00042004537,0.000024598921,0.00010629504,1.3212784e-7,0.5994787,0.00022175754,0.39467552,0.0007484647],"about_ca_topic_score_codex":0.0001799474,"about_ca_topic_score_gemma":0.00016077816,"teacher_disagreement_score":0.39432356,"about_ca_system_score_codex":0.00018698428,"about_ca_system_score_gemma":0.00040096822,"threshold_uncertainty_score":0.99978364},"labels":[],"label_agreement":null},{"id":"W3203474760","doi":"10.1002/adma.202106084","title":"Gas‐Phase Fluorination of Hexagonal Boron Nitride","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto; University of New Brunswick","funders":"Fundação de Amparo à Pesquisa do Estado de São Paulo; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Baker Hughes","keywords":"Materials science; Hexagonal boron nitride; Fluorine; Boron nitride; Nanotechnology; Surface modification; Nanoscopic scale; Planar; Chemical physics; Chemical bond; Ionic bonding; Hexagonal phase; Graphene; Chemical engineering; Hexagonal crystal system; Crystallography; Ion; Organic chemistry","score_opus":0.017465272012605858,"score_gpt":0.3287032140109412,"score_spread":0.3112379419983354,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3203474760","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968385,0.00017608372,0.0015511003,0.00022970146,0.00022460432,0.00017438902,0.0002821753,0.00004758834,0.00047583578],"genre_scores_gemma":[0.9916493,0.0001374501,0.007741775,0.00003318776,0.00007336519,0.000089515255,0.00009482761,0.000012610394,0.00016791081],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99877346,0.00008488321,0.00031425979,0.000248174,0.00032763052,0.0002516128],"domain_scores_gemma":[0.9990481,0.00007177321,0.00012154092,0.000312054,0.0003644492,0.0000820872],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00036607322,0.0000945547,0.0002043786,0.000048302034,0.0000802098,0.00004516192,0.00015246114,0.000035986024,0.002246697],"category_scores_gemma":[0.00026308923,0.00009113927,0.00003707046,0.00019068694,0.00006776107,0.00021620489,0.000072452254,0.000029949833,0.00014153885],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005763934,0.00014745719,0.000004656402,0.00004224845,0.0000036228173,0.000005531849,0.000022632332,0.000024621158,0.99047846,0.006698392,0.00018053797,0.0023342287],"study_design_scores_gemma":[0.00071151706,0.00006281776,0.00020469405,0.000022665856,0.0000064702735,0.000007097091,0.000049479822,0.0000032976677,0.9859225,0.009237304,0.0036836376,0.00008853303],"about_ca_topic_score_codex":0.000022948094,"about_ca_topic_score_gemma":0.0000073117776,"teacher_disagreement_score":0.0061906744,"about_ca_system_score_codex":0.00003269952,"about_ca_system_score_gemma":0.000127841,"threshold_uncertainty_score":0.9986654},"labels":[],"label_agreement":null},{"id":"W3203951489","doi":"10.1002/adma.202105541","title":"Design of Quasi‐MOF Nanospheres as a Dynamic Electrocatalyst toward Accelerated Sulfur Reduction Reaction for High‐Performance Lithium–Sulfur Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":183,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Guangdong Science and Technology Department; University of Waterloo; China Postdoctoral Science Foundation","keywords":"Electrocatalyst; Materials science; Catalysis; Electrochemistry; Sulfur; Metal-organic framework; Rational design; Nanotechnology; Chemical engineering; Electrode; Chemistry; Organic chemistry","score_opus":0.015451126151331233,"score_gpt":0.24083244182839023,"score_spread":0.225381315677059,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3203951489","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9616384,0.00033594127,0.034874342,0.00010346685,0.0015887673,0.0005605232,0.00009213141,0.0007747155,0.000031740678],"genre_scores_gemma":[0.9792898,0.0016682826,0.018036598,0.000018683124,0.00007882859,0.00037773675,0.00025880954,0.00009453387,0.00017668241],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99824595,0.000048234073,0.0006679565,0.00040668776,0.00017980923,0.0004513719],"domain_scores_gemma":[0.99895793,0.0000645023,0.0002279658,0.00042208043,0.00029095425,0.000036574045],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00018848038,0.00035062555,0.0006243512,0.00008865963,0.00010061686,0.00007605382,0.0001954589,0.00020145028,0.00010055324],"category_scores_gemma":[0.00013194593,0.0003545207,0.00004364803,0.00027208964,0.000076498596,0.0007647174,0.00005546991,0.000087354994,0.000017744902],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00036919434,0.000042147825,0.0000010748187,0.0006054602,0.00006901325,0.000004431533,0.000077568926,0.0057767844,0.98681355,0.0001927737,0.00008893996,0.0059590936],"study_design_scores_gemma":[0.00063224806,0.00033473378,0.000118218035,0.00015677542,0.000042085052,0.00005942163,0.00024657845,0.000119782744,0.9947573,0.0026604831,0.00049919804,0.00037319344],"about_ca_topic_score_codex":0.000014802585,"about_ca_topic_score_gemma":0.0000036355964,"teacher_disagreement_score":0.017651472,"about_ca_system_score_codex":0.00016507848,"about_ca_system_score_gemma":0.00006298375,"threshold_uncertainty_score":0.9998907},"labels":[],"label_agreement":null},{"id":"W3204873255","doi":"10.1002/adma.202104730","title":"Emerging Technologies in Multi‐Material Bioprinting","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":252,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Biomedical Imaging and Bioengineering; National Institute on Deafness and Other Communication Disorders; National Science Foundation; National Institutes of Health; National Cancer Institute; National Heart, Lung, and Blood Institute","keywords":"Biofabrication; 3D bioprinting; Nanotechnology; Materials science; Tissue engineering; Systems engineering; Computer science; Biochemical engineering; Biomedical engineering; Engineering","score_opus":0.051147463432427584,"score_gpt":0.3789928497702646,"score_spread":0.327845386337837,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3204873255","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00063284754,0.99464244,0.00021252163,0.000008760207,0.002345458,0.00060887757,0.00008311922,0.001290118,0.00017588463],"genre_scores_gemma":[0.00021797072,0.987955,0.011014856,0.0000016007442,0.00011050163,0.00037834357,0.00011481622,0.00015876857,0.000048184666],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9970939,0.00012667997,0.0010892292,0.0005369349,0.000357838,0.00079538015],"domain_scores_gemma":[0.99893254,0.0001893773,0.0001436365,0.00061992323,0.000057126646,0.000057369296],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008443469,0.000513008,0.0019723137,0.0005172237,0.000044238634,0.00015284728,0.0006706727,0.00059067406,0.00034970988],"category_scores_gemma":[0.001325647,0.00047497486,0.00014814168,0.0006694234,0.000095802796,0.0001251508,0.0006288808,0.00046899493,0.00015281324],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000010179136,0.000013290997,3.844588e-7,0.016277118,0.000042200365,0.00008997213,0.00001203442,0.000026240246,0.012590561,0.000058695718,0.00002791189,0.9708606],"study_design_scores_gemma":[0.00016415276,0.0000067699953,8.681813e-7,0.019992717,0.00003289501,0.000019695754,0.000046159672,0.000014487883,0.034480654,0.00004127362,0.9446776,0.0005227133],"about_ca_topic_score_codex":0.000009602503,"about_ca_topic_score_gemma":0.0000050488784,"teacher_disagreement_score":0.97033787,"about_ca_system_score_codex":0.00032436458,"about_ca_system_score_gemma":0.00008904694,"threshold_uncertainty_score":0.99977016},"labels":[],"label_agreement":null},{"id":"W3204994929","doi":"10.1002/adma.202105362","title":"Electron and Ion Co‐Conductive Catalyst Achieving Instant Transformation of Lithium Polysulfide towards Li<sub>2</sub>S","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Tsinghua Shenzhen International Graduate School; National Natural Science Foundation of China","keywords":"Polysulfide; Materials science; Catalysis; Lithium (medication); Chemical engineering; Adsorption; Ion; Electrolyte; Carbon fibers; Nanotechnology; Electrode; Composite material; Physical chemistry; Chemistry; Organic chemistry","score_opus":0.007172516423459549,"score_gpt":0.22272080234090003,"score_spread":0.21554828591744046,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3204994929","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944979,0.00082791265,0.0030661542,0.00006949032,0.00040461036,0.00021551002,0.00017460073,0.00034222697,0.00040158653],"genre_scores_gemma":[0.99623305,0.002187139,0.001334847,0.000018582361,0.00003506584,0.000042171665,0.00010448792,0.000040137897,0.000004537703],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99881095,0.00003460373,0.0004749367,0.00023115615,0.0001503032,0.00029808056],"domain_scores_gemma":[0.999498,0.0000275776,0.0001097676,0.00023978364,0.00008732793,0.000037521106],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015721859,0.00023009015,0.00044599533,0.00009598562,0.000060200247,0.000047268226,0.00009119198,0.00012426912,0.000012666044],"category_scores_gemma":[0.00006880844,0.00022597775,0.000034079825,0.00014911275,0.00006753326,0.0006475035,0.0000403385,0.00008596158,0.000005000153],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043688327,0.0000131079705,0.0000026808127,0.0003126974,0.0000346856,0.000006350456,0.00022795137,0.0004915189,0.9895206,0.0010846901,0.0000068107843,0.00825521],"study_design_scores_gemma":[0.0003857726,0.000066773275,0.00029629917,0.00011814546,0.000024313267,0.00003009217,0.00027178205,0.000009784122,0.9962038,0.0016677812,0.0006899516,0.00023552607],"about_ca_topic_score_codex":0.0000055438427,"about_ca_topic_score_gemma":0.0000067791025,"teacher_disagreement_score":0.008019683,"about_ca_system_score_codex":0.000080659214,"about_ca_system_score_gemma":0.000026482745,"threshold_uncertainty_score":0.9215106},"labels":[],"label_agreement":null},{"id":"W3205977415","doi":"10.1002/adma.202106335","title":"Simultaneously Blocking Chemical Crosstalk and Internal Short Circuit via Gel‐Stretching Derived Nanoporous Non‐Shrinkage Separator for Safe Lithium‐Ion Batteries","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":129,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Science; Argonne National Laboratory; Ministry of Science and Technology of the People's Republic of China; Tsinghua University; National Natural Science Foundation of China; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Separator (oil production); Materials science; Nanoporous; Anode; Chemical engineering; Cathode; Thermal runaway; Composite material; Analytical Chemistry (journal); Nanotechnology; Electrode; Organic chemistry; Thermodynamics; Chemistry; Physical chemistry; Battery (electricity)","score_opus":0.009310028289944223,"score_gpt":0.24987305391247677,"score_spread":0.24056302562253254,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3205977415","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96753454,0.00022423135,0.028169842,0.000028586966,0.0026310564,0.00057698874,0.00030682294,0.00033049326,0.0001974402],"genre_scores_gemma":[0.9864786,0.00009993702,0.012098648,0.00020484364,0.0004555373,0.00021133861,0.00016042133,0.00016628417,0.00012438228],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99749476,0.0000491051,0.0008531979,0.00064084167,0.0002667948,0.0006953227],"domain_scores_gemma":[0.99893534,0.00017563024,0.00012809067,0.00045690703,0.00016647718,0.00013754834],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002512598,0.00052238186,0.0007637509,0.000064789325,0.00017460671,0.00033244715,0.00024376767,0.00018607025,0.00027815573],"category_scores_gemma":[0.00018419047,0.0005783872,0.000058836922,0.000082771345,0.00011268401,0.00055193587,0.00023886515,0.00012623655,0.000017982135],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000093998715,0.000027302163,0.00003708132,0.0005032884,0.00008533962,0.00012925598,0.0004513817,0.0021113378,0.99263966,0.000028363507,0.000057492856,0.0038355265],"study_design_scores_gemma":[0.0008338688,0.000059147373,0.000067273504,0.00025706118,0.00004774928,0.0002192209,0.0001175601,0.00024550688,0.9940726,0.0011147914,0.0023495192,0.00061567634],"about_ca_topic_score_codex":0.000005447199,"about_ca_topic_score_gemma":0.000005578396,"teacher_disagreement_score":0.018944072,"about_ca_system_score_codex":0.00020056353,"about_ca_system_score_gemma":0.000030852974,"threshold_uncertainty_score":0.99966675},"labels":[],"label_agreement":null},{"id":"W3207009168","doi":"10.1002/adma.202104362","title":"Hydrogel‐Based Slow Release of a Receptor‐Binding Domain Subunit Vaccine Elicits Neutralizing Antibody Responses Against SARS‐CoV‐2","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"SARS-CoV-2 and COVID-19 Research","field":"Medicine","cited_by":106,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Infection and Immunity","funders":"Stanford Maternal and Child Health Research Institute; National Institute of General Medical Sciences; Bill and Melinda Gates Foundation; National Institutes of Health; National Science Foundation","keywords":"Neutralizing antibody; Materials science; Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2); Protein subunit; Coronavirus disease 2019 (COVID-19); Antibody; Virology; 2019-20 coronavirus outbreak; Coronavirus; Receptor; Severe acute respiratory syndrome coronavirus; Biophysics; Cell biology; Biology; Immunology; Medicine; Biochemistry; Infectious disease (medical specialty)","score_opus":0.037568378102362604,"score_gpt":0.36915491115223825,"score_spread":0.3315865330498756,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3207009168","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967952,0.0005461119,0.00013331187,0.0005355853,0.00039317957,0.00062108296,0.00018620952,0.00015450711,0.0006348482],"genre_scores_gemma":[0.98514,0.000109918066,0.004036023,0.010056799,0.00019133405,0.00006639551,0.00018394695,0.00010525578,0.000110305504],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968176,0.0003677256,0.0008286264,0.0006269735,0.0006570964,0.0007019869],"domain_scores_gemma":[0.9978738,0.00041610413,0.0002913406,0.0008255438,0.00050510257,0.00008813559],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009691992,0.00035814298,0.00094355224,0.00036798482,0.00014496419,0.00005972403,0.00022768161,0.00018720365,0.00008952189],"category_scores_gemma":[0.0014614648,0.00034367456,0.00016869474,0.0007691294,0.00007907209,0.00022639951,0.00013487869,0.00021160801,0.0001315596],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0040899566,0.00024059814,0.0014781639,0.00060378487,0.00008242189,0.0005802322,0.00012854862,0.0000055120177,0.9915348,0.00013110493,0.00022388392,0.0009009791],"study_design_scores_gemma":[0.0043685194,0.00029609835,0.00042164463,0.00089519704,0.00005556729,0.000041995405,0.00018457031,0.000013550446,0.9451819,0.00013169901,0.048109833,0.00029943214],"about_ca_topic_score_codex":0.00006002588,"about_ca_topic_score_gemma":0.00001812469,"teacher_disagreement_score":0.047885947,"about_ca_system_score_codex":0.000191133,"about_ca_system_score_gemma":0.000618416,"threshold_uncertainty_score":0.99990153},"labels":[],"label_agreement":null},{"id":"W3207208542","doi":"10.1002/adma.202105761","title":"A Single‐Droplet Electricity Generator Achieves an Ultrahigh Output Over 100 V Without Pre‐Charging","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; Shanghai Jiao Tong University; National Natural Science Foundation of China","keywords":"Triboelectric effect; Contact electrification; Nanogenerator; Electrification; Electricity; Materials science; Bottleneck; Capacitor; Electrostatic induction; Generator (circuit theory); Voltage; Electrical engineering; Optoelectronics; Computer science; Power (physics); Electrode; Physics; Engineering","score_opus":0.014816929581654753,"score_gpt":0.2404187621775873,"score_spread":0.22560183259593253,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3207208542","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9883225,0.00025899385,0.0063500693,0.000013038798,0.0026915723,0.00017958027,0.00012818126,0.0011539906,0.0009020725],"genre_scores_gemma":[0.98025095,0.00016446045,0.017205594,0.0001635794,0.00071370514,0.00005976929,0.0002247746,0.00018078918,0.0010363974],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99762195,0.00015469035,0.00060334377,0.00057486526,0.00031439512,0.00073073234],"domain_scores_gemma":[0.9988642,0.00007165915,0.000122409,0.0005897766,0.00014608426,0.00020589179],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00021995541,0.00046833805,0.0006638826,0.000091699214,0.00016358917,0.00026003984,0.00021995026,0.00016471361,0.0003637784],"category_scores_gemma":[0.00022333067,0.00048099482,0.000067193076,0.00023347586,0.000045268578,0.0007956209,0.00005555329,0.00012763009,0.000049979906],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005881126,0.000060625644,0.00004247866,0.000104602725,0.000040941868,0.00004655417,0.000109576984,0.040045973,0.9574374,0.00024974096,0.00010398027,0.0016993319],"study_design_scores_gemma":[0.0006059119,0.00007995722,0.0008131353,0.00009253389,0.00003375663,0.00005688346,0.000020692823,0.0004784351,0.98866725,0.000424557,0.008121694,0.0006051752],"about_ca_topic_score_codex":0.000023064486,"about_ca_topic_score_gemma":0.00003151539,"teacher_disagreement_score":0.039567538,"about_ca_system_score_codex":0.00017041196,"about_ca_system_score_gemma":0.0000447498,"threshold_uncertainty_score":0.99976414},"labels":[],"label_agreement":null},{"id":"W3210206434","doi":"10.1002/adma.202107326","title":"Multiscale Understanding of Surface Structural Effects on High‐Temperature Operational Resiliency of Layered Oxide Cathodes","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Argonne National Laboratory; Vehicle Technologies Office; Office of Science; Hong Kong Polytechnic University; Engineering and Physical Sciences Research Council; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Materials science; Cathode; Grain boundary; Intergranular corrosion; Nanotechnology; Engineering physics; Composite material; Microstructure","score_opus":0.012062336772673288,"score_gpt":0.253484505650304,"score_spread":0.2414221688776307,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3210206434","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965563,0.00014792215,0.00094756694,0.000027014594,0.0015430908,0.00025838873,0.00036033452,0.000078582074,0.0000808245],"genre_scores_gemma":[0.9734452,0.000051820694,0.026182843,0.000035766458,0.000060640723,0.000013729852,0.00009360447,0.000046316127,0.0000701032],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986166,0.00010984753,0.0005091901,0.00025146187,0.0002763857,0.00023651792],"domain_scores_gemma":[0.9992142,0.00019694146,0.0001177518,0.00032686745,0.00010611411,0.00003817427],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014877539,0.00022599433,0.00049458485,0.000042992273,0.000055784,0.000029778148,0.00013343255,0.00009393881,0.00024530076],"category_scores_gemma":[0.0001472709,0.00021792726,0.000028283936,0.000112552814,0.00004852327,0.0002591022,0.000052544518,0.000058523776,0.0000053722033],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006722432,0.000012523228,0.000044207234,0.0004493599,0.000030173782,0.000009735231,0.00007982563,0.10588272,0.89040756,0.00292175,0.000054016797,0.000040879717],"study_design_scores_gemma":[0.0007504763,0.000052073618,0.0012714288,0.00026462122,0.000013125566,0.0000052344885,0.00006849142,0.000019031755,0.9947172,0.0026248689,0.000015606027,0.00019787166],"about_ca_topic_score_codex":0.000007194683,"about_ca_topic_score_gemma":0.0000042793167,"teacher_disagreement_score":0.10586369,"about_ca_system_score_codex":0.0001516969,"about_ca_system_score_gemma":0.000026521337,"threshold_uncertainty_score":0.88868153},"labels":[],"label_agreement":null},{"id":"W3210622388","doi":"10.1002/adma.202107836","title":"MIL‐96‐Al for Li–S Batteries: Shape or Size?","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":349,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Government of Saskatchewan; Guangdong-Hong Kong-Macao Joint Laboratory of Human-Machine Intelligence-Synergy Systems; National Research Council; Canadian Institutes of Health Research; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China; University of Saskatchewan","keywords":"Materials science; Hexagonal crystal system; Particle size; Bipyramid; Adsorption; Crystal (programming language); Lithium (medication); Particle (ecology); Sulfur; Density functional theory; Chemical engineering; Nanotechnology; Chemical physics; Crystallography; Crystal structure; Computational chemistry; Physical chemistry; Chemistry; Metallurgy","score_opus":0.013868128342277408,"score_gpt":0.2508619968067811,"score_spread":0.2369938684645037,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3210622388","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98686147,0.0003295409,0.0062731025,0.00059139926,0.0032531205,0.00042286885,0.0005557376,0.001468519,0.0002442287],"genre_scores_gemma":[0.93340623,0.0012077338,0.062546045,0.0008055081,0.00029800035,0.000633246,0.000105290965,0.00016954656,0.0008284168],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99853784,0.000018202682,0.00044786508,0.0003647896,0.00012919775,0.0005021064],"domain_scores_gemma":[0.9991025,0.00021780553,0.00006802513,0.00044138794,0.00011642769,0.000053884774],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000109990986,0.00031021732,0.0005144914,0.000039812625,0.000094114184,0.00010834547,0.00021268446,0.0001384048,0.0019739154],"category_scores_gemma":[0.0004484908,0.00027214066,0.000058372276,0.0001243423,0.00006061984,0.00033391666,0.00010783073,0.000056471992,0.00007506281],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000116020354,0.000016434327,0.0000044587255,0.00026734124,0.000035335586,0.00004040019,0.000026463476,0.0005287096,0.98968863,0.00036526888,0.0032070838,0.005703871],"study_design_scores_gemma":[0.0006171383,0.00006983203,0.00008029811,0.00006725622,0.000014946481,0.00003097869,0.000087857225,0.00004768027,0.8563803,0.002214044,0.14005402,0.00033566082],"about_ca_topic_score_codex":0.0000013052552,"about_ca_topic_score_gemma":0.000007819495,"teacher_disagreement_score":0.13684694,"about_ca_system_score_codex":0.00006458336,"about_ca_system_score_gemma":0.000029577466,"threshold_uncertainty_score":0.99997306},"labels":[],"label_agreement":null},{"id":"W3210922758","doi":"10.1002/adma.202104473","title":"Plant‐Based Structures as an Opportunity to Engineer Optical Functions in Next‐Generation Light Management","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"European Research Council; Academy of Finland; Svenska Forskningsrådet Formas; European Commission","keywords":"Materials science; Nanotechnology; Transparency (behavior); Cellulose; Flexibility (engineering); Computer science; Process engineering; Systems engineering; Engineering","score_opus":0.11343315408297937,"score_gpt":0.37863705769100264,"score_spread":0.26520390360802326,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3210922758","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0027357214,0.98245645,0.004395018,0.00015029249,0.0035819935,0.0038664634,0.0012139906,0.00032642312,0.0012736743],"genre_scores_gemma":[0.00035626796,0.9518237,0.042100713,0.00018438417,0.00062331074,0.0019220114,0.0021653434,0.00014792723,0.0006763446],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9957007,0.00048986275,0.0010635164,0.0011548273,0.00075862516,0.00083243905],"domain_scores_gemma":[0.9978887,0.00016868948,0.0002488906,0.00097288174,0.00018472543,0.00053615455],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00078924553,0.00069254136,0.0019119134,0.00045222338,0.00020836657,0.00033181164,0.0005133511,0.00024880486,0.0022751202],"category_scores_gemma":[0.0007212801,0.00058831414,0.00014796508,0.00049418124,0.00006404346,0.00052284455,0.00041064466,0.00023083852,0.00032112913],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011290103,0.00038550855,1.03645114e-7,0.011805518,0.00013547091,0.0009797377,0.000101261365,0.0031276224,0.4910661,0.018137498,0.0012090894,0.4729392],"study_design_scores_gemma":[0.00040536537,0.00019405957,0.0000012470243,0.0038618627,0.00022386301,0.00003116037,0.00011088739,0.000006051017,0.10346032,0.00039262333,0.8903742,0.00093836256],"about_ca_topic_score_codex":0.000015828758,"about_ca_topic_score_gemma":0.000045043074,"teacher_disagreement_score":0.8891651,"about_ca_system_score_codex":0.000504335,"about_ca_system_score_gemma":0.00043234346,"threshold_uncertainty_score":0.99965686},"labels":[],"label_agreement":null},{"id":"W3213853525","doi":"10.1002/adma.202108150","title":"Efficient Tandem Quantum‐Dot LEDs Enabled by An Inorganic Semiconductor‐Metal‐Dielectric Interconnecting Layer Stack","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":96,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Light-emitting diode; Materials science; Optoelectronics; Tandem; Stack (abstract data type); Diode; Quantum dot; Fabrication; Quantum efficiency; Semiconductor; Dielectric; Composite material; Computer science","score_opus":0.02616366232288786,"score_gpt":0.2624840401210412,"score_spread":0.23632037779815335,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3213853525","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99440444,0.002279742,0.00017600352,0.00012369675,0.0019371476,0.00029730206,0.00010224782,0.00028642223,0.00039301702],"genre_scores_gemma":[0.99784404,0.00018762451,0.00071374583,0.00032280912,0.0002153006,0.000060090402,0.00004204653,0.00009159581,0.00052272715],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9963225,0.0006043305,0.0008483736,0.00091023627,0.0004684229,0.0008461167],"domain_scores_gemma":[0.998185,0.00022234171,0.000348514,0.00072250864,0.00033896102,0.0001826851],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001307318,0.00043568682,0.000784716,0.00009641884,0.00034978118,0.0004305944,0.00044610226,0.00016277102,0.0070015173],"category_scores_gemma":[0.0008746607,0.00036574673,0.00008646309,0.00034313917,0.00009054124,0.00048080666,0.00021619852,0.00014131141,0.00047187012],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008651244,0.00016458765,0.000016814982,0.000071504095,0.000021879063,0.000022070804,0.000471179,0.00019156505,0.997431,0.0007707513,0.00023626546,0.00051591045],"study_design_scores_gemma":[0.00055238133,0.00020352083,0.00003119407,0.00009970604,0.000043883007,0.000049151407,0.00071423134,0.00016649651,0.99350697,0.00062078214,0.003477098,0.0005345969],"about_ca_topic_score_codex":0.00008654269,"about_ca_topic_score_gemma":0.000028586232,"teacher_disagreement_score":0.0065296474,"about_ca_system_score_codex":0.00018380878,"about_ca_system_score_gemma":0.0001840282,"threshold_uncertainty_score":0.9998794},"labels":[],"label_agreement":null},{"id":"W3214774962","doi":"10.1002/adma.202107868","title":"Structural Insights into Multi‐Metal Spinel Oxide Nanoparticles for Boosting Oxygen Reduction Electrocatalysis","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":83,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"Natural Sciences and Engineering Research Council of Canada; Institute for Basic Science; National Research Foundation of Korea; Korea Institute of Science and Technology Information; National Research Foundation","keywords":"Spinel; Materials science; Catalysis; Electrocatalyst; Oxide; Nanoparticle; Metal; Crystal structure; Electrochemistry; Inorganic chemistry; Chemical engineering; Nanotechnology; Physical chemistry; Crystallography; Chemistry; Electrode; Metallurgy","score_opus":0.012129189396486233,"score_gpt":0.2509337627073777,"score_spread":0.23880457331089147,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3214774962","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973963,0.0007021583,0.000613461,0.000105556624,0.0006652848,0.00020746587,0.0000034622747,0.00023120304,0.000075090924],"genre_scores_gemma":[0.97834253,0.000065427485,0.02011954,0.000076810735,0.00023721556,0.00011724406,0.00047260275,0.000074488635,0.0004941428],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978616,0.00011739451,0.0005441602,0.0006292793,0.00031461308,0.0005329047],"domain_scores_gemma":[0.9986681,0.00006564939,0.00024488673,0.00045186057,0.00046560736,0.000103904815],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024167307,0.00030518018,0.00045363337,0.000117766554,0.000321984,0.00007890115,0.00020038291,0.00012359589,0.00009141249],"category_scores_gemma":[0.0006635255,0.00029876866,0.00013753262,0.0003606042,0.000051335264,0.0006538144,0.00010466652,0.0000715242,0.000040574378],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022949101,0.000026413896,0.0000027044998,0.00006301195,0.00011734045,0.000010147359,0.00019153743,0.0014565827,0.98996574,0.0035485972,0.000020465333,0.004367947],"study_design_scores_gemma":[0.0011225836,0.00007708077,0.00017763824,0.000033007156,0.00011541089,0.00004158093,0.00017494481,0.00021109545,0.99027085,0.0049343808,0.0024788624,0.00036257226],"about_ca_topic_score_codex":0.00037234672,"about_ca_topic_score_gemma":0.00045850858,"teacher_disagreement_score":0.01950608,"about_ca_system_score_codex":0.00032382572,"about_ca_system_score_gemma":0.00010966667,"threshold_uncertainty_score":0.9999464},"labels":[],"label_agreement":null},{"id":"W3217037888","doi":"10.1002/adma.202108615","title":"Anisotropic Carrier Mobility from 2H WSe<sub>2</sub>","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fundamental Research Funds for the Central Universities; National Outstanding Youth Science Fund Project of National Natural Science Foundation of China; Natural Science Foundation of Beijing Municipality; Natural Science Foundation of Guangxi Province; National Natural Science Foundation of China","keywords":"Electron mobility; Anisotropy; Materials science; Scattering; Condensed matter physics; Transistor; Optoelectronics; Phonon scattering; Induced high electron mobility transistor; Threshold voltage; Phonon; Field-effect transistor; Voltage; Optics; Electrical engineering; Physics","score_opus":0.009922492716154791,"score_gpt":0.24638438732957602,"score_spread":0.23646189461342124,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3217037888","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993699,0.00022317024,0.0007141577,0.00022766877,0.0020416556,0.000358766,0.0021439404,0.00026709968,0.00032455652],"genre_scores_gemma":[0.992329,0.00015503615,0.0060704583,0.00036134652,0.00042890038,0.00027961328,0.00024017614,0.00004975,0.00008574316],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975232,0.00018820087,0.0006255197,0.00081984984,0.00034187525,0.00050139095],"domain_scores_gemma":[0.99823445,0.00010263424,0.00022547934,0.0010000003,0.00027262597,0.00016481071],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00031925662,0.0002963179,0.00054443657,0.000027031643,0.0002403838,0.000279076,0.00031691688,0.00013833458,0.0043744314],"category_scores_gemma":[0.00020254028,0.0002848822,0.00007434933,0.00015237454,0.00012620377,0.00038604913,0.00025655786,0.000059296308,0.001066173],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004224607,0.00009493472,0.000018782648,0.000034361343,0.0000088306615,0.000018077208,0.00006506119,0.000031315325,0.9969484,0.0017394953,0.0003206,0.00067788287],"study_design_scores_gemma":[0.00048972014,0.000026424947,0.0018631424,0.000034384684,0.00003091196,0.0000079180145,0.00007044783,0.0000011668525,0.97698814,0.011482986,0.008686219,0.00031855804],"about_ca_topic_score_codex":0.000111680565,"about_ca_topic_score_gemma":0.000059830185,"teacher_disagreement_score":0.019960294,"about_ca_system_score_codex":0.00010325652,"about_ca_system_score_gemma":0.00015198482,"threshold_uncertainty_score":0.99996036},"labels":[],"label_agreement":null},{"id":"W3217204418","doi":"10.1002/adma.202107420","title":"Mechanochemistry Advances High‐Performance Perovskite Solar Cells","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":110,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Formamidinium; Materials science; Perovskite (structure); Crystallization; Nucleation; Chemical engineering; Energy conversion efficiency; Halide; Mechanochemistry; Photovoltaics; Crystal (programming language); Nanotechnology; Phase (matter); Inorganic chemistry; Photovoltaic system; Organic chemistry; Optoelectronics","score_opus":0.0032910812906192383,"score_gpt":0.18697804753963856,"score_spread":0.1836869662490193,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3217204418","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941779,0.0006080076,0.0013835294,0.000046603487,0.0012677523,0.00012335296,0.00022817415,0.00043997035,0.0017247491],"genre_scores_gemma":[0.988714,0.0035290925,0.0067927614,0.00011124024,0.00024953872,0.00013775716,0.00012983229,0.000059446225,0.00027635152],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988322,0.00001607057,0.00033797554,0.00029302205,0.00016757613,0.00035314477],"domain_scores_gemma":[0.9992807,0.000022605069,0.000053741987,0.0004307455,0.00013120838,0.00008101859],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010128393,0.00023282967,0.00030884435,0.000027335174,0.0000987918,0.00009207053,0.00017590536,0.00009356689,0.0008819723],"category_scores_gemma":[0.00001939773,0.000243389,0.00003333748,0.00014222991,0.000028519004,0.0003366211,0.00006261021,0.00006274103,0.00023899836],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000068496615,0.000015601408,0.0000017206088,0.00023650772,0.000012400489,0.0000061518026,0.000018246765,0.0034701088,0.9920458,0.00014961544,0.00021002648,0.0038269726],"study_design_scores_gemma":[0.00024298881,0.000010005401,0.000062223575,0.000052516123,0.000012599592,0.0000113924625,0.000022834594,0.000054963708,0.9448099,0.00043623144,0.054005794,0.00027854712],"about_ca_topic_score_codex":0.0000019867068,"about_ca_topic_score_gemma":0.0000017229604,"teacher_disagreement_score":0.053795766,"about_ca_system_score_codex":0.000054934277,"about_ca_system_score_gemma":0.000023595569,"threshold_uncertainty_score":0.9925116},"labels":[],"label_agreement":null},{"id":"W4200002488","doi":"10.1002/adma.202108931","title":"Vertical Extrusion Cryo(bio)printing for Anisotropic Tissue Manufacturing","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":112,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Brigham Research Institute","keywords":"Materials science; Extrusion; 3D bioprinting; Tissue engineering; Structural integrity; Anisotropy; Nanotechnology; Biomedical engineering; Regenerative medicine; Composite material; Cell; Engineering; Optics; Chemistry","score_opus":0.01560168365905219,"score_gpt":0.29132920913835997,"score_spread":0.2757275254793078,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200002488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9689391,0.00015867714,0.028213061,0.00013094924,0.0012090855,0.0002454075,0.00001500135,0.00033686016,0.0007518503],"genre_scores_gemma":[0.9635139,0.000120442965,0.035678484,0.000043130847,0.00027288255,0.0000715656,0.00002540891,0.000058164456,0.00021601286],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985776,0.000033222484,0.00031796374,0.00028131466,0.0002815131,0.00050840405],"domain_scores_gemma":[0.9992747,0.00020654955,0.00001719593,0.0002975104,0.00008059428,0.00012345125],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000271529,0.00015544132,0.00024901284,0.000048206904,0.00009070683,0.000089827336,0.00017347396,0.0001084498,0.00083483936],"category_scores_gemma":[0.00065893534,0.00015819486,0.000037430855,0.00007525269,0.00003899522,0.000121038946,0.0001711737,0.00010080194,0.00012353792],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014216244,0.000011487845,0.00000960208,0.0002995959,0.0000135014425,0.000021876425,0.000020617417,0.00030527907,0.9583685,0.00044893735,0.00011138553,0.040375024],"study_design_scores_gemma":[0.00039097964,0.000024194445,0.0011304487,0.0000882638,0.0000073093765,0.000009260813,0.000017039534,0.00020179123,0.95915043,0.0013934325,0.03741842,0.00016844555],"about_ca_topic_score_codex":0.0000029612083,"about_ca_topic_score_gemma":0.0000025671195,"teacher_disagreement_score":0.040206578,"about_ca_system_score_codex":0.000100665355,"about_ca_system_score_gemma":0.00002613605,"threshold_uncertainty_score":0.9140906},"labels":[],"label_agreement":null},{"id":"W4200035388","doi":"10.1002/adma.202108493","title":"Nanolayer Laser Absorber for Femtoliter Chemistry in Polymer Reactors","year":2021,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Force Microscopy Techniques and Applications","field":"Physics and Astronomy","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"China Scholarship Council; Max-Planck-Gesellschaft; Bundesministerium für Bildung und Forschung","keywords":"Materials science; Polymer; Laser; Nanotechnology; Aqueous solution; Hematite; Polyimide; Chemical engineering; Chemistry; Optics; Organic chemistry; Composite material","score_opus":0.005911164751861769,"score_gpt":0.27509080349295045,"score_spread":0.2691796387410887,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200035388","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99327695,0.000059596674,0.0014849091,0.00013420774,0.00008713481,0.00020466872,0.00030515113,0.00003898238,0.0044083996],"genre_scores_gemma":[0.98949236,0.0000042273714,0.0044636386,0.00009676121,0.00012063371,0.00038427793,0.00024469258,0.000026498035,0.005166887],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993269,0.000007165633,0.00020206343,0.0002176511,0.000045460514,0.00020079281],"domain_scores_gemma":[0.9996022,0.000019493837,0.000060731625,0.00023160073,0.00005519124,0.000030778232],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00005109138,0.00010927021,0.00016191103,0.000011147292,0.000037038295,0.000037998827,0.00007276429,0.000038890703,0.0018132676],"category_scores_gemma":[0.0000037585805,0.000107602704,0.000046811187,0.00006686253,0.000015419495,0.000081974766,0.00003497125,0.00003512577,0.000019456435],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011235885,0.000045852812,0.00020107295,0.00001998075,0.000006571156,5.0607736e-7,0.000024378282,0.0000014831188,0.9956546,0.0028273156,0.00042874506,0.0007782531],"study_design_scores_gemma":[0.0002904559,0.0000038330218,0.00009124686,0.000030316967,0.0000054389666,5.2708606e-7,0.0000450578,8.155861e-7,0.9525105,0.0034998944,0.04339871,0.00012321095],"about_ca_topic_score_codex":0.000033415476,"about_ca_topic_score_gemma":0.0000012642099,"teacher_disagreement_score":0.043144114,"about_ca_system_score_codex":0.00002059714,"about_ca_system_score_gemma":0.000031078234,"threshold_uncertainty_score":0.9990992},"labels":[],"label_agreement":null},{"id":"W4200049493","doi":"10.1002/adma.202109029","title":"Advancing the Mechanical Performance of Glasses: Perspectives and Challenges","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Building materials and conservation","field":"Earth and Planetary Sciences","cited_by":152,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"H2020 European Research Council; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; European Commission","keywords":"Materials science; Nanotechnology; Engineering ethics; Engineering physics; Engineering","score_opus":0.04136665806210196,"score_gpt":0.27321509882742206,"score_spread":0.2318484407653201,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200049493","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.025616331,0.97323996,0.0000030469414,0.00008857111,0.0005463813,0.00029608124,0.00010395026,0.000021619917,0.000084054445],"genre_scores_gemma":[0.007710209,0.9911949,0.0008548539,0.0000138373925,0.00013271456,0.000011582023,0.0000563841,0.000009945446,0.000015584565],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9985684,0.00024407542,0.00045619186,0.00033611504,0.00018284943,0.0002123346],"domain_scores_gemma":[0.9989767,0.00025905133,0.00037324024,0.0002716928,0.00008102673,0.00003828253],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006603378,0.00023840627,0.0010477945,0.00004012904,0.00010364498,0.000063869564,0.00020371447,0.00012201423,0.0004536357],"category_scores_gemma":[0.00015376571,0.0001445658,0.00007385422,0.00009091791,0.00007536469,0.0001963547,0.000039721504,0.000076559685,0.000010402829],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011396196,0.000006393654,0.0000041742433,0.007403137,0.000042549993,0.0000023004256,0.000110019064,0.0000071472737,0.0003103665,0.0007794625,0.000005065351,0.991318],"study_design_scores_gemma":[0.00016178658,0.00021459766,0.00037709827,0.010763213,0.00032039106,0.00009074324,0.0008946615,0.000011545489,0.0014710458,0.00025533343,0.9849874,0.0004522176],"about_ca_topic_score_codex":0.000053456533,"about_ca_topic_score_gemma":0.000059063354,"teacher_disagreement_score":0.99086577,"about_ca_system_score_codex":0.0000071225295,"about_ca_system_score_gemma":0.000104170154,"threshold_uncertainty_score":0.58952224},"labels":[],"label_agreement":null},{"id":"W4200061164","doi":"10.1002/adma.202108079","title":"2D Materials for All‐Solid‐State Lithium Batteries","year":2021,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Guangdong Science and Technology Department; Mitacs; China Postdoctoral Science Foundation","keywords":"Materials science; Anode; Electrolyte; Energy density; Compatibility (geochemistry); Cathode; Battery (electricity); Ionic conductivity; Electrochemistry; Fabrication; Synchrotron; Lithium (medication); Fast ion conductor; Nanotechnology; Energy storage; Current density; Lithium vanadium phosphate battery; Characterization (materials science); Power density; Engineering physics; Electrode; Electrical engineering; Composite material; Power (physics); Engineering","score_opus":0.03311676611039163,"score_gpt":0.33443560642493325,"score_spread":0.3013188403145416,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200061164","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0003880732,0.9632818,0.0021047865,0.000019307014,0.018781321,0.0036746887,0.010397293,0.00107196,0.000280735],"genre_scores_gemma":[0.000041367337,0.97980547,0.009018259,0.00019889677,0.0012253211,0.0045812023,0.003137601,0.0008466963,0.0011452007],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99367595,0.00031809596,0.002846058,0.0011594548,0.0005767861,0.0014236473],"domain_scores_gemma":[0.9968779,0.00038306933,0.00076118606,0.0014606082,0.00032975647,0.00018746982],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0010541617,0.0016912601,0.005865954,0.00027402825,0.00014348785,0.00062718627,0.000881196,0.00057141914,0.002580866],"category_scores_gemma":[0.00036902475,0.0016177872,0.00032871493,0.00021508308,0.00012286477,0.00068355637,0.00037740535,0.00018188234,0.00047612732],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009735614,0.000103627215,3.764524e-8,0.15272884,0.0018180659,0.00015311006,0.00020033661,0.00037631817,0.44696933,0.0007059352,0.021625543,0.3752215],"study_design_scores_gemma":[0.00035581546,0.000054355733,7.3639605e-8,0.008513664,0.0004882894,0.0000555811,0.000009685797,1.4067861e-7,0.251224,0.00078332226,0.7372922,0.0012228561],"about_ca_topic_score_codex":0.000003470708,"about_ca_topic_score_gemma":0.0000022808417,"teacher_disagreement_score":0.71566665,"about_ca_system_score_codex":0.0006343682,"about_ca_system_score_gemma":0.00016582999,"threshold_uncertainty_score":0.9995834},"labels":[],"label_agreement":null},{"id":"W4206162503","doi":"10.1002/adma.202108932","title":"Recent Progress on Self‐Healable Conducting Polymers","year":2022,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":156,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Polytechnique Montréal; Defence Research and Development Canada; Centre de Recherche sur les Systèmes Polymères et Composites à Haute Performance","keywords":"Materials science; PEDOT:PSS; Self-healing; Biocompatibility; Nanotechnology; Self-healing material; Conductive polymer; Polyaniline; Polymer; Polypyrrole; Electronics; Flexibility (engineering); Smart material; Composite material; Electrical engineering; Engineering","score_opus":0.12533006173449565,"score_gpt":0.3825306973653472,"score_spread":0.2572006356308516,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4206162503","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0014891471,0.99024564,8.7856677e-7,0.00008693387,0.0038180242,0.0015957381,0.0004737671,0.00050840137,0.001781488],"genre_scores_gemma":[0.000015664084,0.99437493,0.0013278896,0.00010345142,0.00037871258,0.002190685,0.00025858247,0.00014835213,0.0012017605],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9963754,0.00038104117,0.0009963725,0.0010206444,0.0005166287,0.0007099498],"domain_scores_gemma":[0.99749964,0.00030686797,0.0010423351,0.00094754563,0.000056584217,0.000147032],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0008727066,0.0005925203,0.0016213505,0.00015924059,0.00057745265,0.00019161307,0.00070216303,0.00017157587,0.018289445],"category_scores_gemma":[0.00014137223,0.00051582523,0.00017787151,0.00042670214,0.00010081794,0.00017359604,0.0003137475,0.00026440324,0.0006852188],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000010966113,0.000123271,2.1353946e-8,0.0025035471,0.000032944918,0.000009220981,0.0000698903,0.0000011761015,0.021442182,0.00039651367,0.00062486925,0.9747854],"study_design_scores_gemma":[0.00015279475,0.00008332935,2.0104373e-8,0.0011830974,0.0001959104,0.000035963596,0.000055269797,3.5808483e-8,0.06769441,0.00003858218,0.9300548,0.00050579174],"about_ca_topic_score_codex":0.000022409838,"about_ca_topic_score_gemma":0.0000012229489,"teacher_disagreement_score":0.9742796,"about_ca_system_score_codex":0.00041790857,"about_ca_system_score_gemma":0.0003941249,"threshold_uncertainty_score":0.99972934},"labels":[],"label_agreement":null},{"id":"W4206351922","doi":"10.1002/adma.202270015","title":"Design of Quasi‐MOF Nanospheres as a Dynamic Electrocatalyst toward Accelerated Sulfur Reduction Reaction for High‐Performance Lithium–Sulfur Batteries (Adv. Mater. 2/2022)","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Electrocatalyst; Sulfur; Lithium (medication); Reduction (mathematics); Chemical engineering; Inorganic chemistry; Electrochemistry; Electrode; Metallurgy; Chemistry; Physical chemistry","score_opus":0.013529718757273244,"score_gpt":0.23483803803419695,"score_spread":0.2213083192769237,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4206351922","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9815638,0.00025520346,0.013195554,0.000108459906,0.002384873,0.0010945658,0.00028298827,0.0010909023,0.00002364059],"genre_scores_gemma":[0.9900698,0.0007875687,0.0067486805,0.000026034173,0.00007084166,0.0015517094,0.00038925957,0.00013885315,0.00021724358],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99773264,0.000085411884,0.0008176141,0.00048386506,0.00030373473,0.00057674036],"domain_scores_gemma":[0.99892026,0.00006144432,0.00035214485,0.00048028174,0.00014490582,0.000040989282],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00036308702,0.00043142246,0.0006983284,0.000176123,0.00026815763,0.00007231844,0.00038179595,0.00014156231,0.00030819833],"category_scores_gemma":[0.000060211594,0.00045104348,0.00005197875,0.00034800946,0.000088299734,0.0007817597,0.00014524152,0.00014928555,0.000014529068],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009274105,0.000058462385,0.0000015704767,0.0005357726,0.00007257598,0.000003550624,0.00013842912,0.019950751,0.97387487,0.00019074898,0.00018496496,0.0040608854],"study_design_scores_gemma":[0.0007694017,0.00088981405,0.00009925366,0.00006545623,0.000044403525,0.00007225327,0.00049402745,0.00022856533,0.9933058,0.0025688908,0.0009865918,0.00047556916],"about_ca_topic_score_codex":0.00003434542,"about_ca_topic_score_gemma":0.0000019702352,"teacher_disagreement_score":0.019722186,"about_ca_system_score_codex":0.0003581922,"about_ca_system_score_gemma":0.000050251434,"threshold_uncertainty_score":0.9997941},"labels":[],"label_agreement":null},{"id":"W4210256774","doi":"10.1002/adma.202107940","title":"A Two‐Pathway Model for the Evolution of Colloidal Compound Semiconductor Quantum Dots and Magic‐Size Clusters","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"National Research Council Canada","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China","keywords":"Quantum dot; Nanotechnology; Materials science; Nucleation; Nanomaterials; Ternary operation; Nanocrystal; Semiconductor; MAGIC (telescope); Computer science; Optoelectronics; Chemistry; Physics","score_opus":0.024445261365501528,"score_gpt":0.25322873589529,"score_spread":0.22878347452978848,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210256774","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943594,0.0011238273,0.0013653286,0.00025218667,0.001058016,0.0007889621,0.00094526814,0.000046847854,0.000060207058],"genre_scores_gemma":[0.9964648,0.000041703363,0.0025209745,0.00012287135,0.00006125404,0.00032470858,0.0000060614707,0.000030198828,0.00042741932],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99843735,0.00017437706,0.0004481086,0.00033007088,0.0003065082,0.00030360842],"domain_scores_gemma":[0.99879205,0.00044735623,0.000296116,0.00031780542,0.000103498765,0.00004317815],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0011858408,0.00018090985,0.00037445064,0.000038266524,0.00045904992,0.000079666184,0.0003147646,0.00003051624,0.0004075104],"category_scores_gemma":[0.00019193703,0.0001275407,0.00005352238,0.00007006945,0.00019994541,0.00024716233,0.0002472268,0.00004869154,0.000005518773],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00067267305,0.000035810506,0.0000055233686,0.00008650737,0.000010301011,6.1180873e-7,0.0005394572,0.007154212,0.98478425,0.006446402,0.00015120614,0.000113035734],"study_design_scores_gemma":[0.0010873061,0.00019578735,0.000041563122,0.000028330413,0.000039555598,0.00002199699,0.0015917929,0.015877644,0.9698863,0.009462421,0.0015288998,0.00023837082],"about_ca_topic_score_codex":0.00021571097,"about_ca_topic_score_gemma":0.00002022599,"teacher_disagreement_score":0.014897928,"about_ca_system_score_codex":0.00015410666,"about_ca_system_score_gemma":0.00012704945,"threshold_uncertainty_score":0.5200959},"labels":[],"label_agreement":null},{"id":"W4210323328","doi":"10.1002/adma.202110047","title":"A MOF‐Derivative Decorated Hierarchical Porous Host Enabling Ultrahigh Rates and Superior Long‐Term Cycling of Dendrite‐Free Zn Metal Anodes","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":250,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Anode; Overpotential; Chemical engineering; Dendrite (mathematics); Nucleation; Composite number; Plating (geology); Nanotechnology; Electrochemistry; Composite material; Electrode; Organic chemistry","score_opus":0.015117276011250201,"score_gpt":0.2739916898002453,"score_spread":0.2588744137889951,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210323328","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943692,0.0010974555,0.002537877,0.00007147344,0.00035854406,0.00051226566,0.00044056837,0.0005684814,0.000044109],"genre_scores_gemma":[0.98996633,0.0005946853,0.008921164,0.000025932923,0.000039173912,0.0002446192,0.000074971635,0.000100115685,0.000033021224],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977632,0.00012715053,0.000614267,0.00045597545,0.00041436395,0.0006250202],"domain_scores_gemma":[0.9988095,0.00032913577,0.000121464676,0.0005404978,0.00011234897,0.0000870439],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003416465,0.0003402752,0.0006541829,0.0003103632,0.00023062344,0.00006853028,0.0005588468,0.00010222592,0.000353096],"category_scores_gemma":[0.0005489595,0.00034981946,0.000047691894,0.0004776016,0.00026578776,0.0004768396,0.00067543675,0.00036592956,0.000003754293],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016747958,0.00003884907,0.00065432757,0.00018295046,0.000086007494,0.00009581399,0.00022713553,0.00523399,0.98993903,0.0001466801,0.000008654736,0.0032190538],"study_design_scores_gemma":[0.0009821584,0.00022051157,0.0033660636,0.00005653866,0.000020151205,0.000079472105,0.0004733848,0.00017307341,0.9928979,0.001248209,0.00009690776,0.0003855981],"about_ca_topic_score_codex":0.000013256087,"about_ca_topic_score_gemma":0.000008802366,"teacher_disagreement_score":0.0063832873,"about_ca_system_score_codex":0.00016337313,"about_ca_system_score_gemma":0.000033575285,"threshold_uncertainty_score":0.9998954},"labels":[],"label_agreement":null},{"id":"W4210355741","doi":"10.1002/adma.202109170","title":"Fast Self‐Assembly of Scalable Photonic Cellulose Nanocrystals and Hybrid Films via Electrophoresis","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrophoretic Deposition in Materials Science","field":"Engineering","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; FPInnovations","funders":"Natural Resources Canada","keywords":"Materials science; Electrophoretic deposition; Photonics; Nanotechnology; Fabrication; Self-assembly; Cellulose; Nanocrystal; Chemical engineering; Optoelectronics","score_opus":0.0024388312634613034,"score_gpt":0.18213782077899512,"score_spread":0.1796989895155338,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210355741","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964936,0.0006434476,0.000926056,0.000013599171,0.00071193924,0.00034999027,0.00013944248,0.00027396387,0.00044799183],"genre_scores_gemma":[0.9915891,0.00038224974,0.0075730206,0.00003645256,0.000022539461,0.00020842759,0.00002398953,0.000058325422,0.00010588848],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99819833,0.00010467146,0.0004898985,0.0003309679,0.0003936623,0.0004824618],"domain_scores_gemma":[0.99934095,0.000053862885,0.00013368356,0.00032354362,0.00006417215,0.00008377038],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00041719404,0.00022968122,0.00041378618,0.00011805215,0.00015699021,0.000060758335,0.0002826847,0.000032809014,0.0012622668],"category_scores_gemma":[0.000020472284,0.00025094484,0.000036758862,0.00024968627,0.00007113669,0.00018168514,0.00015382335,0.00008290543,0.000016645541],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000049265476,0.000030146011,0.0000029224047,0.00014453733,0.000019788497,0.000016175693,0.00007760728,0.0034202542,0.9955128,0.00014970367,0.00042308244,0.00015374571],"study_design_scores_gemma":[0.00034273491,0.00022823266,0.000039030198,0.000017739825,0.00002143671,0.00011705018,0.000026760043,0.000885247,0.99669564,0.0007136542,0.000650499,0.0002619504],"about_ca_topic_score_codex":0.000021318514,"about_ca_topic_score_gemma":7.970818e-7,"teacher_disagreement_score":0.0066469647,"about_ca_system_score_codex":0.00014087596,"about_ca_system_score_gemma":0.000036418096,"threshold_uncertainty_score":0.9999943},"labels":[],"label_agreement":null},{"id":"W4210541923","doi":"10.1002/adma.202107053","title":"Highly Active and Durable Single‐Atom Tungsten‐Doped NiS<sub>0.5</sub>Se<sub>0.5</sub> Nanosheet @ NiS<sub>0.5</sub>Se<sub>0.5</sub> Nanorod Heterostructures for Water Splitting","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":240,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hydro-Québec","funders":"National Natural Science Foundation of China","keywords":"Nanosheet; Materials science; Electrocatalyst; Oxygen evolution; Water splitting; Nanorod; Chemical engineering; Nanotechnology; Catalysis; Physical chemistry; Electrochemistry; Chemistry; Photocatalysis","score_opus":0.00870095833992541,"score_gpt":0.21455876589865894,"score_spread":0.20585780755873354,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210541923","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98824555,0.00052171765,0.00026189626,0.00045588883,0.0049592536,0.0029312884,0.00089193496,0.0013924213,0.0003400343],"genre_scores_gemma":[0.98991793,0.00071738,0.0007850968,0.0013155174,0.0011139257,0.001800016,0.0032011678,0.0010697484,0.000079229765],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.98458177,0.0012118322,0.0031534426,0.0041336864,0.002409906,0.0045093424],"domain_scores_gemma":[0.9927012,0.0007866737,0.0019432625,0.0025332293,0.0010636625,0.00097199774],"candidate_categories":["metaepi_narrow","sts"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.001837281,0.0028471926,0.003243208,0.0011298715,0.0030673235,0.0008362472,0.0017133611,0.0010900241,0.00015544074],"category_scores_gemma":[0.00057240896,0.002788706,0.000907843,0.0011324229,0.0006411268,0.0028086018,0.002066776,0.0011490657,0.00020835595],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.004660183,0.00040667318,0.000029974677,0.0006878846,0.0007642204,0.00022909245,0.0013180225,0.0029549326,0.9706626,0.00092689873,0.00086557586,0.016493965],"study_design_scores_gemma":[0.006890283,0.0016539252,0.00046047676,0.00035065957,0.00063464564,0.00044259816,0.0006924109,0.000070720205,0.9721181,0.004320289,0.009042079,0.0033238225],"about_ca_topic_score_codex":0.00017983526,"about_ca_topic_score_gemma":0.0006176575,"teacher_disagreement_score":0.013170142,"about_ca_system_score_codex":0.0023663815,"about_ca_system_score_gemma":0.00044461922,"threshold_uncertainty_score":0.998426},"labels":[],"label_agreement":null},{"id":"W4210619521","doi":"10.1002/adma.202108419","title":"Self‐Assembled Epitaxial Ferroelectric Oxide Nanospring with Super‐Scalability","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"Fundamental Research Funds for the Central Universities; National Key Research and Development Program of China; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Ferroelectricity; Oxide; Nanotechnology; Optoelectronics","score_opus":0.005522993926155182,"score_gpt":0.19080036915323456,"score_spread":0.18527737522707938,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210619521","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944678,0.00012402739,0.0012132032,0.000019665587,0.0010717936,0.00034908796,0.000044298944,0.0016384679,0.0010716664],"genre_scores_gemma":[0.9832829,0.000056072837,0.015909273,0.000046174457,0.00011486966,0.00033189426,0.000027400114,0.00013077284,0.00010061724],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99786633,0.0001461836,0.00048832456,0.00044350294,0.00039119317,0.0006644757],"domain_scores_gemma":[0.9991547,0.00009558608,0.000086650696,0.00047617606,0.000067576395,0.00011934919],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00041008694,0.000362349,0.0005419374,0.00011056693,0.00033784463,0.000073963434,0.00029008594,0.000058044785,0.00040578537],"category_scores_gemma":[0.00008000655,0.0003544158,0.000048993385,0.00034586882,0.00001894839,0.00035103387,0.00012281329,0.00015719495,0.000029351639],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016440633,0.000036846526,0.00004298298,0.00011772746,0.00003583198,0.000028648861,0.00007860909,0.15003785,0.8487278,0.00040638217,0.000026755752,0.00029615712],"study_design_scores_gemma":[0.000888963,0.00019496436,0.00075403263,0.0000182673,0.000030448273,0.000066845074,0.000070281494,0.0002518255,0.98850715,0.00068985746,0.00797309,0.00055428967],"about_ca_topic_score_codex":0.000027693446,"about_ca_topic_score_gemma":0.000010256401,"teacher_disagreement_score":0.14978603,"about_ca_system_score_codex":0.00038966225,"about_ca_system_score_gemma":0.000037933853,"threshold_uncertainty_score":0.9998908},"labels":[],"label_agreement":null},{"id":"W4210834172","doi":"10.1002/adma.202107954","title":"Tuning Two‐Electron Oxygen‐Reduction Pathways for H<sub>2</sub>O<sub>2</sub> Electrosynthesis via Engineering Atomically Dispersed Single Metal Site Catalysts","year":2022,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":222,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Science Foundation of Zhejiang Province; Division of Chemical, Bioengineering, Environmental, and Transport Systems; National Natural Science Foundation of China; Fundamental Research Funds for the Central Universities; National Science Foundation","keywords":"Catalysis; Electrosynthesis; Materials science; Electrochemistry; Rational design; Platinum; Nanotechnology; Electrolysis; Chemical engineering; Electrode; Chemistry; Electrolyte; Organic chemistry","score_opus":0.015466013545562169,"score_gpt":0.23433040329398583,"score_spread":0.21886438974842365,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210834172","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.32767043,0.6565845,0.003711569,0.000030626852,0.004850709,0.0042549507,0.00045965624,0.0022559061,0.0001816753],"genre_scores_gemma":[0.18054347,0.80158037,0.0014819468,0.00004499489,0.0014663379,0.0033297832,0.010157861,0.0013579151,0.000037329508],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9920082,0.0005044914,0.0020684376,0.0021483805,0.0010809363,0.0021895377],"domain_scores_gemma":[0.99585044,0.0005798185,0.0015604201,0.0013850402,0.0002681313,0.0003561655],"candidate_categories":["metaepi_narrow"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0012455871,0.0018852395,0.0038731254,0.00095458457,0.0005827557,0.00021627397,0.00095691055,0.0006783063,0.00006761145],"category_scores_gemma":[0.00060651026,0.0020128812,0.0013931858,0.0011426647,0.000083755025,0.0008692942,0.0004018063,0.0006922325,0.00015273102],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":true,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019030602,0.00011230098,1.5424638e-8,0.0027837371,0.00065247295,0.000023389337,0.0000482778,0.00083094224,0.759104,0.00067886466,0.00003179478,0.23554386],"study_design_scores_gemma":[0.00076079846,0.0003571061,1.4044355e-7,0.0010766317,0.0017904663,0.00022842964,0.000009226538,0.00007500538,0.80197114,0.00019720766,0.1919327,0.0016011707],"about_ca_topic_score_codex":0.00008887054,"about_ca_topic_score_gemma":0.000103323226,"teacher_disagreement_score":0.23394269,"about_ca_system_score_codex":0.0041821483,"about_ca_system_score_gemma":0.000512872,"threshold_uncertainty_score":0.99964064},"labels":[],"label_agreement":null},{"id":"W4213149043","doi":"10.1002/adma.202110468","title":"Stable and Solution‐Processable Cumulenic sp‐Carbon Wires: A New Paradigm for Organic Electronics","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"European Research Council; Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Organic electronics; Nanotechnology; Graphene; Electronics; Carbon nanotube; Carbon fibers; Transistor; Molecule; Polymer; Organic chemistry; Electrical engineering; Composite material; Chemistry; Physical chemistry; Composite number","score_opus":0.006594271733891611,"score_gpt":0.20655399175325942,"score_spread":0.19995972001936782,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4213149043","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.987145,0.008637122,0.0020166652,0.0001445308,0.00066665787,0.0006903477,0.00011172531,0.0003724123,0.00021554889],"genre_scores_gemma":[0.99621606,0.0017043608,0.0007624795,0.00007510444,0.00012071617,0.00017935608,0.000053476335,0.00010917689,0.0007792416],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986768,0.000019061872,0.00026835586,0.00026578095,0.00016440451,0.0006056143],"domain_scores_gemma":[0.99954396,0.00004783149,0.00006205662,0.00023464244,0.000024970139,0.000086510096],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002471418,0.00020264907,0.00028764375,0.000050099905,0.00020801641,0.00005599809,0.00016905446,0.000052483727,0.00035357891],"category_scores_gemma":[0.00002937299,0.00023533759,0.00002726073,0.00019129853,0.000013130049,0.00013712459,0.00007602694,0.00013221543,0.0000035918815],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000053722822,0.0000148853205,0.0000036587332,0.00013101727,0.000036451587,7.4316597e-7,0.00008667996,0.0023015481,0.99385643,0.0025507219,0.0007053012,0.0002588469],"study_design_scores_gemma":[0.00085254264,0.00023336279,0.000004728166,0.000011057882,0.00003442422,0.000016330248,0.000021997674,0.0016039669,0.88884306,0.024916079,0.08317221,0.00029024118],"about_ca_topic_score_codex":0.00003066557,"about_ca_topic_score_gemma":0.00005996208,"teacher_disagreement_score":0.10501336,"about_ca_system_score_codex":0.00033553276,"about_ca_system_score_gemma":0.0002094785,"threshold_uncertainty_score":0.9596789},"labels":[],"label_agreement":null},{"id":"W4213439918","doi":"10.1002/adma.202270060","title":"Nanolayer Laser Absorber for Femtoliter Chemistry in Polymer Reactors (Adv. Mater. 8/2022)","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Diatoms and Algae Research","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"","keywords":"Polymer; Materials science; Laser; Nanotechnology; Oxide; Chemical reaction; Chemical engineering; Optics; Chemistry; Organic chemistry; Composite material","score_opus":0.012035488084492826,"score_gpt":0.28179778850576653,"score_spread":0.2697623004212737,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4213439918","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99617547,0.00029217626,0.000010856088,0.00018590997,0.000885148,0.0005048371,0.0007810971,0.00009723327,0.0010672454],"genre_scores_gemma":[0.9918578,0.000026241332,0.0004389388,0.0002765288,0.00015238649,0.0011257209,0.00010567246,0.00007517291,0.0059414823],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99747974,0.00011233778,0.00050889596,0.00058858894,0.0005289487,0.00078148895],"domain_scores_gemma":[0.99908054,0.00010455908,0.00015868546,0.0004692293,0.00007277391,0.00011421615],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000975456,0.0002471807,0.000409327,0.0000918378,0.00020940714,0.00015097762,0.00046574612,0.00007281155,0.018729901],"category_scores_gemma":[0.00008531848,0.00023227284,0.00007494879,0.0002010106,0.00006087679,0.00034403373,0.0003998181,0.00011317197,0.00016164711],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032775875,0.000108603395,0.00012377024,0.00011638372,0.000005969665,0.00002432937,0.00011083708,0.000026173328,0.9977275,0.0002691347,0.0007569039,0.00040262545],"study_design_scores_gemma":[0.0009888912,0.00005744871,0.00034498476,0.000023612918,0.0000059636727,0.00001244947,0.00015392304,0.0000030827441,0.9695302,0.0008600739,0.027724776,0.00029454986],"about_ca_topic_score_codex":0.000091815404,"about_ca_topic_score_gemma":0.000004613589,"teacher_disagreement_score":0.028197268,"about_ca_system_score_codex":0.00020291685,"about_ca_system_score_gemma":0.0000945737,"threshold_uncertainty_score":0.9821671},"labels":[],"label_agreement":null},{"id":"W4214559020","doi":"10.1002/adma.202200321","title":"Controlled Crystal Plane Orientations in the ZnO Transport Layer Enable High‐Responsivity, Low‐Dark‐Current Infrared Photodetectors","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Responsivity; Materials science; Dark current; Photocurrent; Optoelectronics; Atomic layer deposition; Photodetector; Quantum dot; Photoconductivity; Ultraviolet; Infrared; Adsorption; Crystal (programming language); Quantum efficiency; Zinc; Layer (electronics); Nanotechnology; Optics; Chemistry","score_opus":0.01564209750909724,"score_gpt":0.24932029033527073,"score_spread":0.2336781928261735,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4214559020","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947632,0.00043922674,0.000036302557,0.00015718896,0.0021470927,0.0011661005,0.0009015154,0.000092115166,0.0002972901],"genre_scores_gemma":[0.9975626,0.000065259555,0.00015456609,0.00019494045,0.00009233688,0.0015088381,0.000077653625,0.000032774395,0.00031103252],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99672586,0.00091230415,0.00072167395,0.00043165538,0.0007020693,0.0005064364],"domain_scores_gemma":[0.99871945,0.00043461382,0.00026087748,0.0004578534,0.00006844522,0.000058772],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0021260486,0.00026943907,0.0006129747,0.00013667726,0.000516704,0.00013097256,0.00054133113,0.000041973275,0.0069250986],"category_scores_gemma":[0.00021660831,0.0001865419,0.0000848238,0.00024075188,0.00010109576,0.00035106504,0.00010458645,0.00014746773,0.00006545739],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0033500094,0.00019395498,0.000031879128,0.0000484989,0.00000880441,0.000028515416,0.0016852542,0.0011321408,0.99251825,0.0005398863,0.0003232965,0.00013949719],"study_design_scores_gemma":[0.0035051927,0.00023729759,0.0011395613,0.000041034764,0.00003050026,0.000017444356,0.0012432504,0.000008471761,0.9734202,0.002272177,0.017743256,0.00034158988],"about_ca_topic_score_codex":0.000266834,"about_ca_topic_score_gemma":0.000084230494,"teacher_disagreement_score":0.019098038,"about_ca_system_score_codex":0.000118749456,"about_ca_system_score_gemma":0.00015166175,"threshold_uncertainty_score":0.99398273},"labels":[],"label_agreement":null},{"id":"W4214591749","doi":"10.1002/adma.202201095","title":"Anionic Lipid Nanoparticles Preferentially Deliver mRNA to the Hepatic Reticuloendothelial System","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":181,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"NanoMedicines Innovation Network; FPInnovations; BC Innovation Council; University of British Columbia","funders":"Interreg; European Regional Development Fund; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; National Science Foundation; Universiteit Leiden; National Heart, Lung, and Blood Institute; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung","keywords":"Mononuclear phagocyte system; Biodistribution; RNA; In vivo; Messenger RNA; Systemic administration; Cell biology; Biology; Nanotechnology; Immunology; Materials science; Biochemistry","score_opus":0.007815361388180344,"score_gpt":0.2246837537452269,"score_spread":0.21686839235704655,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4214591749","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973462,0.00016333468,0.00016647244,0.0003335437,0.0012093575,0.00041103436,0.00017295763,0.00003073674,0.00016633571],"genre_scores_gemma":[0.99769187,0.00006000104,0.00023435963,0.0006684502,0.00033110063,0.00032463245,0.000071982635,0.000026176738,0.000591414],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986786,0.00019673661,0.0002800901,0.0003375663,0.00022553302,0.0002814726],"domain_scores_gemma":[0.9992838,0.000010251728,0.00009744968,0.00045735695,0.000090439185,0.00006071661],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002840696,0.0001526541,0.00016342085,0.0000265571,0.0002765983,0.000051422463,0.00038819714,0.000034103654,0.00027251642],"category_scores_gemma":[0.00004756948,0.000118316675,0.000059391405,0.000072753464,0.000026650272,0.0000064124765,0.00039958677,0.000048966962,0.00011522586],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032980798,0.000027076409,0.000014226754,0.00001937945,0.00003115832,0.0000027721899,0.00008152061,0.0011030294,0.9948191,0.0001281808,0.002539746,0.0009040017],"study_design_scores_gemma":[0.0003173441,0.0005294778,0.00017852297,0.000016237145,0.000022313545,0.000021127025,0.00024063702,0.000008880266,0.94721013,0.000022027652,0.051270917,0.00016240207],"about_ca_topic_score_codex":0.000046018264,"about_ca_topic_score_gemma":0.000038255483,"teacher_disagreement_score":0.04873117,"about_ca_system_score_codex":0.0000504512,"about_ca_system_score_gemma":0.00004756923,"threshold_uncertainty_score":0.4824814},"labels":[],"label_agreement":null},{"id":"W4220655250","doi":"10.1002/adma.202200854","title":"In Situ Inorganic Ligand Replenishment Enables Bandgap Stability in Mixed‐Halide Perovskite Quantum Dot Solids","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":184,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Collaborative Innovation Center of Suzhou Nano Science and Technology; University of Toronto; National Natural Science Foundation of China; China Postdoctoral Science Foundation; Government of Ontario","keywords":"Quantum dot; Light-emitting diode; Materials science; Perovskite (structure); Halide; Luminescence; Optoelectronics; Diode; Colloid; Band gap; Nanotechnology; Chemical engineering; Inorganic chemistry; Chemistry","score_opus":0.011524814215054946,"score_gpt":0.23247890080012273,"score_spread":0.2209540865850678,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4220655250","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973341,0.00024273181,0.000038948223,0.00019153838,0.0009213115,0.0005259463,0.0002872468,0.00017438168,0.00028379462],"genre_scores_gemma":[0.9983771,0.00018290793,0.00029614766,0.00009050564,0.00007992096,0.0007935292,0.00008765386,0.00005579135,0.00003643821],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980696,0.00011807358,0.00070557167,0.0004059942,0.00023049804,0.00047026298],"domain_scores_gemma":[0.9992726,0.000063195264,0.000078573226,0.0004951583,0.00002527678,0.00006522581],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00072617776,0.00024665124,0.00045398076,0.00012631749,0.00010990653,0.00007684019,0.00026091753,0.000058761158,0.00092172704],"category_scores_gemma":[0.00004886937,0.00027139127,0.000035851957,0.00028616172,0.000031714837,0.00027166022,0.0002040526,0.00013178725,0.000030493438],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000044674685,0.00008718678,0.00011151335,0.000111535344,0.000006451346,0.000013725608,0.00048311174,0.004498153,0.993654,0.00066648296,0.00020687583,0.00011625688],"study_design_scores_gemma":[0.0007391035,0.000045810815,0.0031256727,0.000025581756,0.000006205418,0.000009028034,0.00038057208,0.000048150992,0.98191077,0.002913373,0.010483037,0.00031267162],"about_ca_topic_score_codex":0.00014430203,"about_ca_topic_score_gemma":0.00031554882,"teacher_disagreement_score":0.011743239,"about_ca_system_score_codex":0.00043796442,"about_ca_system_score_gemma":0.000035970643,"threshold_uncertainty_score":0.99999154},"labels":[],"label_agreement":null},{"id":"W4220867336","doi":"10.1002/adma.202200744","title":"Regulation of Surface Defect Chemistry toward Stable Ni‐Rich Cathodes","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Argonne National Laboratory; Office of Energy Efficiency; U.S. Department of Energy; Canada Excellence Research Chairs, Government of Canada; Office of Energy Efficiency and Renewable Energy; Office of Science; University of Chicago","keywords":"Materials science; Cathode; Electrochemistry; Lithium (medication); Cationic polymerization; Ion; Surface modification; Energy density; Current density; Crystal structure; Chemical engineering; Electrode; Nanotechnology; Crystallography; Physical chemistry; Chemistry; Engineering physics","score_opus":0.01211401847037027,"score_gpt":0.23666280414225574,"score_spread":0.22454878567188546,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4220867336","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950835,0.00024135674,0.0014885692,0.000013998207,0.001307534,0.00027250714,0.00035567596,0.00025784923,0.0009789994],"genre_scores_gemma":[0.9906061,0.000041836774,0.008539948,0.000019962647,0.000055508957,0.00009905487,0.00011445371,0.00006663084,0.00045644716],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99863297,0.00007113763,0.0004714945,0.00023153625,0.0002995629,0.00029329944],"domain_scores_gemma":[0.999348,0.000047698522,0.00014942412,0.00037027756,0.000053019823,0.000031595235],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004183372,0.00019627802,0.0003689452,0.000028221892,0.00008393237,0.000021921973,0.00021671626,0.000040977742,0.004322773],"category_scores_gemma":[0.000047422607,0.0002274706,0.000024346145,0.00013765012,0.000028322942,0.00023539395,0.00015351197,0.00005741773,0.00001564313],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004297174,0.00001680251,0.000026111287,0.00026368667,0.000019590949,0.0000013910645,0.00010849002,0.18898255,0.81004304,0.000050423834,0.0003086179,0.00013631623],"study_design_scores_gemma":[0.0003456468,0.000027028527,0.00017622962,0.000019925363,0.000017844119,0.0000068328222,0.00009536341,0.00002985376,0.995446,0.0011987768,0.0024122342,0.00022423083],"about_ca_topic_score_codex":0.000009507394,"about_ca_topic_score_gemma":2.873311e-7,"teacher_disagreement_score":0.1889527,"about_ca_system_score_codex":0.00022099724,"about_ca_system_score_gemma":0.000018237133,"threshold_uncertainty_score":0.9965874},"labels":[],"label_agreement":null},{"id":"W4220880601","doi":"10.1002/adma.202201547","title":"Emerging Trends in Sustainable CO<sub>2</sub>‐Management Materials","year":2022,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Carbon Dioxide Capture Technologies","field":"Engineering","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"University of Waterloo; Natural Sciences and Engineering Research Council of Canada; Mitacs","keywords":"Nanotechnology; Systems engineering; Materials science; Computer science; Engineering","score_opus":0.014201618548415914,"score_gpt":0.2748208842801977,"score_spread":0.2606192657317818,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4220880601","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0027780265,0.987175,0.000013603156,0.000007513486,0.0016352372,0.0013096799,0.00023730937,0.0021466392,0.004696986],"genre_scores_gemma":[0.0013090067,0.99446267,0.00021363955,0.000011747841,0.00010466941,0.0025767104,0.000605282,0.00031629304,0.0003999826],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99645305,0.0001434127,0.0012992752,0.0006842683,0.00039139143,0.0010285873],"domain_scores_gemma":[0.9985214,0.00008068141,0.00030671663,0.0010079597,0.000023640365,0.000059594535],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007379495,0.00087705156,0.0026166087,0.0016010955,0.000048603266,0.00014458444,0.0007505064,0.0002981425,0.0011806391],"category_scores_gemma":[0.00007215939,0.00091262074,0.0002196222,0.0010667559,0.000051447678,0.00025940014,0.00053442374,0.00031990933,0.00007304812],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013713711,0.000025629053,3.7516074e-8,0.03202046,0.00022437022,0.00080331176,0.000042429638,0.0005684294,0.028928498,0.0036128508,0.0025480743,0.9312122],"study_design_scores_gemma":[0.0002727852,0.00001805213,8.4694943e-7,0.0015899204,0.00018667371,0.000026410682,0.00017640246,3.2828808e-7,0.08307834,0.00037070995,0.9134659,0.0008136312],"about_ca_topic_score_codex":0.000008910455,"about_ca_topic_score_gemma":0.0000056413633,"teacher_disagreement_score":0.9303986,"about_ca_system_score_codex":0.0014571554,"about_ca_system_score_gemma":0.000030974465,"threshold_uncertainty_score":0.99973243},"labels":[],"label_agreement":null},{"id":"W4220960780","doi":"10.1002/adma.202110123","title":"A Sulfur‐Tolerant MOF‐Based Single‐Atom Fe Catalyst for Efficient Oxidation of NO and Hg<sup>0</sup>","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Catalytic Processes in Materials Science","field":"Materials Science","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China","keywords":"Catalysis; Oxidizing agent; Sulfur; Adsorption; Selectivity; Materials science; Atom (system on chip); Inorganic chemistry; Density functional theory; Photochemistry; Chemical engineering; Chemistry; Physical chemistry; Organic chemistry; Computational chemistry; Metallurgy","score_opus":0.013053513225190251,"score_gpt":0.2528240625910188,"score_spread":0.23977054936582856,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4220960780","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98967826,0.00011484941,0.006098462,0.00011368262,0.0013560276,0.0010918804,0.0013162068,0.00013378693,0.00009686442],"genre_scores_gemma":[0.9836418,0.0000039758825,0.015302349,0.00017469603,0.00011427824,0.0004754296,0.00017632334,0.000048591777,0.0000625311],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99679196,0.00014235951,0.00089044264,0.0008160512,0.0007875151,0.0005716544],"domain_scores_gemma":[0.9979272,0.00030133885,0.0006258026,0.00064813707,0.00037871682,0.00011878975],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0020225768,0.00031568698,0.00064466865,0.00016743975,0.00043393724,0.00018035244,0.0006485496,0.00006171541,0.00073606905],"category_scores_gemma":[0.0006193932,0.00031081858,0.00006463185,0.00030791364,0.00031783155,0.00033739087,0.000462317,0.00005335672,0.000040823074],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005669559,0.00017479525,0.000004397079,0.00042550013,0.0000052231067,0.00000404415,0.0003251834,0.018054819,0.9796063,0.0005708716,0.00007007906,0.00019188588],"study_design_scores_gemma":[0.0013381914,0.000345468,0.000024557201,0.00006625974,0.000038887774,0.000024781926,0.00021123303,0.0017739128,0.9925547,0.0007230581,0.0025467488,0.00035219788],"about_ca_topic_score_codex":0.000050652834,"about_ca_topic_score_gemma":0.000002209174,"teacher_disagreement_score":0.016280904,"about_ca_system_score_codex":0.00022966287,"about_ca_system_score_gemma":0.0002077453,"threshold_uncertainty_score":0.9999344},"labels":[],"label_agreement":null},{"id":"W4221014622","doi":"10.1002/adma.202110585","title":"Bioinspired Tough Solid‐State Electrolyte for Flexible Ultralong‐Life Zinc–Air Battery","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":162,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Guangdong Science and Technology Department; Natural Sciences and Engineering Research Council of Canada; Mitacs","keywords":"Materials science; Electrolyte; Nanotechnology; Conductivity; Quasi-solid; Battery (electricity); Chemical engineering; Electrode; Chemistry","score_opus":0.014644590843494041,"score_gpt":0.27053287724911496,"score_spread":0.2558882864056209,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4221014622","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9517598,0.0004422304,0.03802064,0.0006793164,0.0016260755,0.0016967234,0.0010167185,0.004249977,0.00050850265],"genre_scores_gemma":[0.98459715,0.00018096913,0.010747892,0.00050875515,0.00012016533,0.0025378875,0.00016862665,0.00019877052,0.0009397953],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99731237,0.000046241934,0.00056943315,0.00051138067,0.00041627846,0.0011443155],"domain_scores_gemma":[0.9988575,0.00014910205,0.0001006049,0.0006871956,0.000086189066,0.00011938666],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00034178255,0.00037351757,0.00054556475,0.0002571798,0.00033357996,0.00005795987,0.0006933139,0.000082127415,0.00049991213],"category_scores_gemma":[0.00019011486,0.000412913,0.00009695657,0.00040272364,0.00008226926,0.00042515702,0.00027832796,0.000261827,0.000062563624],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021794104,0.000029533649,0.000011585368,0.00014126193,0.00005045378,0.000015204871,0.000040390732,0.102689475,0.88872445,0.0001613636,0.0027057151,0.0052126246],"study_design_scores_gemma":[0.0010229718,0.00029689466,0.00007782324,0.000014135041,0.000010081505,0.000022811113,0.0000864819,0.00042762098,0.9478938,0.0045199785,0.045149334,0.00047807852],"about_ca_topic_score_codex":0.0000048875427,"about_ca_topic_score_gemma":0.0000037530003,"teacher_disagreement_score":0.102261856,"about_ca_system_score_codex":0.00042008626,"about_ca_system_score_gemma":0.00006130347,"threshold_uncertainty_score":0.9998323},"labels":[],"label_agreement":null},{"id":"W4221081030","doi":"10.1002/adma.202270091","title":"Vertical Extrusion Cryo(bio)printing for Anisotropic Tissue Manufacturing (Adv. Mater. 12/2022)","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Tissue Engineering and Regenerative Medicine","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Materials science; Extrusion; Nanotechnology; Anisotropy; 3D printing; Regenerative medicine; Tissue engineering; 3D bioprinting; Interface (matter); Drug delivery; Biomedical engineering; Composite material; Optics; Engineering","score_opus":0.014138789568958896,"score_gpt":0.2793856313787999,"score_spread":0.265246841809841,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4221081030","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98645085,0.0009003351,0.008294738,0.0007131555,0.0025163586,0.00076736335,0.00004215761,0.00021839725,0.000096630654],"genre_scores_gemma":[0.98406357,0.000048722522,0.009317864,0.0001262423,0.0006737799,0.00030023814,0.000117531425,0.00007076391,0.0052812654],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984496,0.000049995706,0.0003792063,0.00037721693,0.00033328388,0.00041065583],"domain_scores_gemma":[0.999415,0.00005892835,0.00006225108,0.00029759374,0.000040463772,0.00012578191],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00028650436,0.00022298757,0.00046919606,0.00010021797,0.0002885167,0.000020454689,0.000108717526,0.000053743614,0.001598742],"category_scores_gemma":[0.00012318153,0.00019189887,0.000052119656,0.000060462276,0.00004052737,0.00006684938,0.00015830345,0.0001390375,0.000021368509],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002665617,0.000054413613,0.000038895138,0.00026776834,0.000030115027,0.00006197625,0.00013222254,0.0005368205,0.99060017,0.00070559577,0.000302023,0.0070034387],"study_design_scores_gemma":[0.0017895168,0.00060159166,0.0017216194,0.000087426604,0.000060776856,0.00011785315,0.00012996286,0.000047141482,0.882985,0.00012274562,0.11215054,0.00018582118],"about_ca_topic_score_codex":0.000010614407,"about_ca_topic_score_gemma":9.111284e-7,"teacher_disagreement_score":0.111848526,"about_ca_system_score_codex":0.00016690265,"about_ca_system_score_gemma":0.000029683688,"threshold_uncertainty_score":0.99931395},"labels":[],"label_agreement":null},{"id":"W4221083835","doi":"10.1002/adma.202200077","title":"An Ultrafast, Durable, and High‐Loading Polymer Anode for Aqueous Zinc‐Ion Batteries and Supercapacitors","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":160,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Argonne National Laboratory; Office of Energy Efficiency; Natural Sciences and Engineering Research Council of Canada; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Office of Science; Vehicle Technologies Office; University of Alberta; University of Chicago","keywords":"Anode; Materials science; Electrolyte; Faraday efficiency; Polymer; Cathode; Aqueous solution; Supercapacitor; Chemical engineering; Battery (electricity); Electrode; Capacitance; Composite material; Organic chemistry","score_opus":0.009949780827046999,"score_gpt":0.24523637015121894,"score_spread":0.23528658932417193,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4221083835","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99471676,0.00053814106,0.0024025536,0.00014485273,0.00061357004,0.00044995695,0.0004415919,0.00066278095,0.000029809413],"genre_scores_gemma":[0.9946968,0.00043870273,0.0039807996,0.000063057094,0.000080982376,0.0005247786,0.000064077445,0.00008808213,0.000062703046],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986571,0.000048053724,0.00026268698,0.00035697225,0.00018838611,0.00048680668],"domain_scores_gemma":[0.9994142,0.00012177722,0.000036930927,0.00031761912,0.000031235162,0.00007820606],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019781667,0.0002352326,0.00031753068,0.00015462934,0.00033817027,0.000092606715,0.000205406,0.000070361966,0.00014821373],"category_scores_gemma":[0.00005659102,0.00025075593,0.000016964848,0.0001177339,0.00013293095,0.00057868374,0.0001423791,0.00013754137,0.0000019510335],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009479641,0.000011605095,0.000071135786,0.000127413,0.000016606315,0.000008459956,0.00014024539,0.0014752513,0.98847705,0.0003167683,0.00006455695,0.009196137],"study_design_scores_gemma":[0.0005417007,0.00025720277,0.00013394112,0.000018839528,0.00000842284,0.000058366375,0.00078991696,0.00022371796,0.9929727,0.0019235122,0.00275818,0.00031352477],"about_ca_topic_score_codex":0.000018812007,"about_ca_topic_score_gemma":0.0000043000487,"teacher_disagreement_score":0.008882612,"about_ca_system_score_codex":0.00012185712,"about_ca_system_score_gemma":0.00000883497,"threshold_uncertainty_score":0.99999446},"labels":[],"label_agreement":null},{"id":"W4224237284","doi":"10.1002/adma.202201663","title":"A Multitasking Flexible Sensor via Reservoir Computing","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Neural Networks and Reservoir Computing","field":"Computer Science","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Artificial Intelligence in Medicine (Canada)","funders":"TEPCO Memorial Foundation","keywords":"Human multitasking; Electronics; Wireless sensor network; Volume (thermodynamics); Computer science; Flooding (psychology); SIGNAL (programming language); Real-time computing; Materials science; Electrical engineering; Engineering","score_opus":0.015813657977484814,"score_gpt":0.2603239480553717,"score_spread":0.24451029007788685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4224237284","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.6778782,0.00022657152,0.31591374,0.00081431295,0.0034041428,0.0003976886,0.000009208477,0.0007722254,0.00058391335],"genre_scores_gemma":[0.9015888,0.0000063269827,0.09731915,0.00052533153,0.0002420011,0.00002488102,0.0000072896846,0.000026279053,0.0002599339],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99756694,0.00027732397,0.00043838975,0.0005906694,0.000518646,0.0006080344],"domain_scores_gemma":[0.9987346,0.00018619894,0.00024432392,0.00065460434,0.00008559801,0.000094668285],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008388634,0.00020718001,0.00031131358,0.00010624468,0.0009839712,0.00022300967,0.0011963017,0.000031804982,0.00010399482],"category_scores_gemma":[0.000050330906,0.00020047379,0.00006908012,0.0004975282,0.000026992824,0.00039812323,0.002493156,0.00020308318,0.000030561056],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004386614,0.00007673773,0.00005174491,0.00004876219,0.000023449013,0.00017960755,0.0004739641,0.37887043,0.59177,0.0044768117,0.0007168071,0.023267824],"study_design_scores_gemma":[0.0027049945,0.00062196114,0.000755821,0.00016996499,0.000017535678,0.00062179094,0.00032008407,0.4103713,0.4906796,0.014612616,0.07738085,0.0017434878],"about_ca_topic_score_codex":0.000039468632,"about_ca_topic_score_gemma":0.0000014894227,"teacher_disagreement_score":0.2237106,"about_ca_system_score_codex":0.000114281574,"about_ca_system_score_gemma":0.000037224894,"threshold_uncertainty_score":0.8175084},"labels":[],"label_agreement":null},{"id":"W4224262820","doi":"10.1002/adma.202200856","title":"Highly Stable Halide‐Electrolyte‐Based All‐Solid‐State Li–Se Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); Western University","funders":"Natural Sciences and Engineering Research Council of Canada; GLABAT Solid-State Battery; Western University; Canada Foundation for Innovation","keywords":"Electrolyte; Materials science; Electrochemistry; Battery (electricity); Electrochemical window; Halide; Cathode; Fast ion conductor; Ionic conductivity; Chemical engineering; Chemical stability; Energy storage; Inorganic chemistry; Electrode; Physical chemistry; Thermodynamics; Chemistry","score_opus":0.011190445850696052,"score_gpt":0.23481839458365936,"score_spread":0.2236279487329633,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4224262820","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98822206,0.0003465478,0.0044308784,0.00042265625,0.00223783,0.00048218068,0.0007566648,0.0027240976,0.00037709312],"genre_scores_gemma":[0.9937584,0.00016956287,0.0040968983,0.00048972917,0.000078165256,0.00075128936,0.00016181234,0.00014943654,0.00034474535],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977365,0.000076801305,0.00058507215,0.0004311408,0.00034510467,0.00082535],"domain_scores_gemma":[0.9990548,0.000069177244,0.00013714547,0.00061153463,0.00005300627,0.00007434895],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00027658933,0.00042556555,0.00059770356,0.00017462047,0.0002654542,0.00014286434,0.00046374448,0.00007021092,0.0016952816],"category_scores_gemma":[0.000045165103,0.00044435388,0.0000614755,0.00022515656,0.000075441676,0.00045298698,0.00024983566,0.00017653315,0.00008694845],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011917064,0.000030058774,0.000005854782,0.00011020951,0.000040684186,0.000051337054,0.00005700739,0.08067918,0.915623,0.00023724999,0.0018033009,0.0012429595],"study_design_scores_gemma":[0.00059274165,0.00017624363,0.000038231796,0.000017279512,0.00001681521,0.000017034694,0.00005908854,0.00015961431,0.8780383,0.0034558359,0.11694304,0.0004857692],"about_ca_topic_score_codex":0.00001982458,"about_ca_topic_score_gemma":0.000007670969,"teacher_disagreement_score":0.11513974,"about_ca_system_score_codex":0.00024485387,"about_ca_system_score_gemma":0.000032158652,"threshold_uncertainty_score":0.9998008},"labels":[],"label_agreement":null},{"id":"W4229007750","doi":"10.1002/adma.202201192","title":"A Light‐Hole Germanium Quantum Well on Silicon","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Semiconductor Quantum Structures and Devices","field":"Physics and Astronomy","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"National Research Council Canada; Natural Sciences and Engineering Research Council of Canada; Mitacs; Canada Research Chairs; Canada Foundation for Innovation","keywords":"Materials science; Germanium; Optoelectronics; Heterojunction; Silicon; Quantum dot; Qubit; Photon; Quantum technology; Quantum well; Quantum; Optics; Physics; Quantum mechanics; Open quantum system","score_opus":0.008697607167524829,"score_gpt":0.24842991319693883,"score_spread":0.239732306029414,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4229007750","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9882134,0.000046468223,0.000009319309,0.00016569954,0.0024032542,0.00020563373,0.00017517824,0.000066202105,0.008714797],"genre_scores_gemma":[0.99850893,0.0000020440334,0.00003632787,0.00040423803,0.0003841596,0.00010769615,0.000076417076,0.000032444867,0.0004477707],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988356,0.00007067082,0.0002509549,0.00031728766,0.00023614992,0.00028930293],"domain_scores_gemma":[0.9993912,0.00003775978,0.00016057155,0.00032573854,0.000026381202,0.00005836004],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011927082,0.00018694413,0.00025575244,0.000050940762,0.00026423938,0.00005478227,0.00021644683,0.00001868845,0.010652471],"category_scores_gemma":[0.0000019307174,0.0001704477,0.000066992536,0.00008386455,0.000012460899,0.00011923085,0.00012595436,0.00010756277,0.000196859],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008945039,0.000051939867,0.00008796564,0.000009780783,0.00002149951,0.0000037725472,0.00012401088,0.00031028927,0.91902643,0.07780408,0.0021137453,0.00035701384],"study_design_scores_gemma":[0.0005574794,0.00015149223,0.0002623551,0.0000086830205,0.000013415225,0.000001926691,0.0005087618,0.000012458916,0.8280665,0.011407048,0.15875214,0.00025773505],"about_ca_topic_score_codex":0.000083524996,"about_ca_topic_score_gemma":5.4584353e-7,"teacher_disagreement_score":0.1566384,"about_ca_system_score_codex":0.00003507629,"about_ca_system_score_gemma":0.000024237455,"threshold_uncertainty_score":0.9902519},"labels":[],"label_agreement":null},{"id":"W4232076031","doi":"10.1002/adma.201907058","title":"Combining Efficiency and Stability in Mixed Tin–Lead Perovskite Solar Cells by Capping Grains with an Ultrathin 2D Layer","year":2020,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":202,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; King Abdullah University of Science and Technology; Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Jiangsu Province; Office of Naval Research; National Natural Science Foundation of China; Government of Canada","keywords":"Materials science; Perovskite (structure); Layer (electronics); Tin; Mixed layer; Chemical engineering; Lead (geology); Nanotechnology; Metallurgy; Meteorology","score_opus":0.013322279621800916,"score_gpt":0.21611112642680985,"score_spread":0.20278884680500894,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4232076031","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9954439,0.00006580783,0.0031841008,0.00010437427,0.000107536776,0.00048289896,0.0002276923,0.0002516,0.00013213327],"genre_scores_gemma":[0.99704915,0.000060848204,0.00248901,0.00013169627,0.00004287808,0.000113277434,0.00006231902,0.00004801724,0.0000028236298],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987573,0.000059308877,0.00036102603,0.00036547493,0.00012928518,0.0003276265],"domain_scores_gemma":[0.99951136,0.000039964692,0.000059275444,0.0002227458,0.000039285238,0.00012736426],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002440664,0.000230307,0.00035235976,0.000031292682,0.000078770136,0.00011945432,0.0001402196,0.00006956328,0.00005647014],"category_scores_gemma":[0.000029795525,0.00021480248,0.000014244367,0.00015299398,0.000057928046,0.0002885706,0.000033864617,0.00008898869,0.000012960009],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000033488534,0.00003509149,0.00005456761,0.0001292513,0.000005076422,0.000002708407,0.0011400706,0.0015053323,0.99669343,0.000057311903,0.000025602745,0.00031809305],"study_design_scores_gemma":[0.0006594674,0.00011273653,0.00036116576,0.000048227383,0.000008140095,0.0000023874136,0.00039256777,0.0010681166,0.99582255,0.000057450976,0.0011724972,0.00029470646],"about_ca_topic_score_codex":0.00003961153,"about_ca_topic_score_gemma":0.000037413956,"teacher_disagreement_score":0.0016052742,"about_ca_system_score_codex":0.00003609105,"about_ca_system_score_gemma":0.000013644225,"threshold_uncertainty_score":0.87593913},"labels":[],"label_agreement":null},{"id":"W4243398366","doi":"10.1002/adma.200790095","title":"Enhanced Photoconductivity in Thin‐Film Semiconductors Optically Coupled to Photonic Crystals","year":2007,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Copper-based nanomaterials and applications","field":"Materials Science","cited_by":5,"is_retracted":false,"has_abstract":false,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Engineering physics; Photoconductivity; Semiconductor; Library science; Materials science; Engineering; Art history; Art; Optoelectronics; Computer science","score_opus":0.01338854164461028,"score_gpt":0.2875973779349967,"score_spread":0.2742088362903864,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4243398366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992208,0.000041857773,0.0026306342,0.0001703522,0.0012150968,0.002564457,0.0001956834,0.00027985286,0.000694058],"genre_scores_gemma":[0.9892158,0.000019959554,0.009158495,0.00033241365,0.00016343947,0.00084773806,0.000026486121,0.00006721141,0.000168438],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99632215,0.00011771571,0.0011161778,0.00094795355,0.00046475118,0.0010312424],"domain_scores_gemma":[0.9980813,0.00027114913,0.0002977136,0.0008300485,0.00020766241,0.0003121034],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0024404423,0.0004327261,0.0007822203,0.00023094213,0.00017406132,0.00019358868,0.00055586593,0.0001848624,0.0039773476],"category_scores_gemma":[0.0004001957,0.00041034634,0.00007389255,0.0005029556,0.00013137097,0.00053140556,0.00017118646,0.000103482846,0.00065898773],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00039481395,0.00016929732,0.000007769063,0.000046018595,0.0000046754444,0.00001144005,0.00029030684,0.00051474466,0.9977813,0.00060733943,0.00004027246,0.0001320674],"study_design_scores_gemma":[0.0010213213,0.00013938134,0.00060333015,0.00009552523,0.000011703578,0.000008915982,0.00021805456,0.000007181425,0.9952144,0.0006769997,0.0014915176,0.0005116739],"about_ca_topic_score_codex":0.00025627672,"about_ca_topic_score_gemma":0.00025271045,"teacher_disagreement_score":0.006527861,"about_ca_system_score_codex":0.0003356409,"about_ca_system_score_gemma":0.00016693727,"threshold_uncertainty_score":0.99983484},"labels":[],"label_agreement":null},{"id":"W4254174434","doi":"10.1002/adma.201502517","title":"25th Anniversary Article: Colloidal Quantum Dot Materials and Devices: A Quarter‐Century of Advances","year":2015,"lang":"en","type":"erratum","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Schematic; Quarter (Canadian coin); Quantum dot; Materials science; Regret; Nanotechnology; Engineering physics; Physics; Computer science; Electrical engineering; Engineering; History","score_opus":0.015856552676515413,"score_gpt":0.25135901735455213,"score_spread":0.2355024646780367,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4254174434","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9160968,0.042112213,0.0000069429657,0.00016619614,0.0327798,0.0011635828,0.0043642195,0.0002666071,0.0030436504],"genre_scores_gemma":[0.9604985,0.021288604,0.0033250528,0.00038410476,0.00314962,0.00036285553,0.0007735285,0.00041551125,0.009802211],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99460846,0.0006529458,0.0015896572,0.0010976227,0.0011515048,0.00089978805],"domain_scores_gemma":[0.9963753,0.00012721756,0.0014931911,0.0008809213,0.0007753257,0.00034799625],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0020404826,0.0008871755,0.0022344103,0.00022649663,0.00018528932,0.00038230547,0.0007493043,0.0005974234,0.0015107779],"category_scores_gemma":[0.00049341994,0.0007197082,0.00009890206,0.00020811896,0.0005610678,0.0013069508,0.00039509623,0.00020670294,0.00023491085],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00097391155,0.000097782235,0.000005000542,0.0014914077,0.00004462429,0.000030581763,0.00070573424,0.000008423417,0.87863135,0.0004124848,0.11714645,0.00045224704],"study_design_scores_gemma":[0.00085980626,0.00051662023,0.00004276394,0.0010605016,0.00015409083,0.000033954017,0.0013941753,0.000004192962,0.6863752,0.0015096187,0.30723998,0.0008090871],"about_ca_topic_score_codex":0.00021585988,"about_ca_topic_score_gemma":0.000044120232,"teacher_disagreement_score":0.19225615,"about_ca_system_score_codex":0.00018596432,"about_ca_system_score_gemma":0.00061842526,"threshold_uncertainty_score":0.9995254},"labels":[],"label_agreement":null},{"id":"W4283729344","doi":"10.1002/adma.202203039","title":"Fast Near‐Infrared Photodetection Using III–V Colloidal Quantum Dots","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":116,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Brookhaven National Laboratory; Office of Science; U.S. Department of Energy","keywords":"Photodiode; Materials science; Photodetection; Quantum dot; Optoelectronics; Infrared; Photodetector; Optics; Physics","score_opus":0.02096096979134794,"score_gpt":0.24846161186490914,"score_spread":0.2275006420735612,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4283729344","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99444795,0.0002591251,0.00026394185,0.000040929677,0.0034652983,0.00044940438,0.00023482523,0.00023269818,0.000605838],"genre_scores_gemma":[0.99605286,0.000024372845,0.002476086,0.00017477556,0.00013886474,0.00022399008,0.000013403141,0.00005673777,0.0008389165],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99755853,0.0003284224,0.0005423241,0.00049792655,0.00056583073,0.00050697726],"domain_scores_gemma":[0.99903125,0.000058125064,0.00030712417,0.00042587594,0.00009372257,0.00008391849],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0009510462,0.00025741445,0.00044508761,0.000078048186,0.0012232432,0.00029780666,0.00035225452,0.00005782209,0.011049839],"category_scores_gemma":[0.00009725693,0.00023923824,0.00007013389,0.00019263846,0.00012247814,0.00046647503,0.00030769722,0.00009610035,0.00014931943],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00055328745,0.000050431332,0.0000038229728,0.000030653424,0.0000073089122,0.000010354629,0.00038893672,0.004085346,0.99384475,0.00025048252,0.00017406413,0.0006005773],"study_design_scores_gemma":[0.0005874996,0.00019649426,0.000037230784,0.000023142466,0.000020270852,0.00004960489,0.00054942816,0.0005963891,0.97333485,0.0009935856,0.02327237,0.000339157],"about_ca_topic_score_codex":0.00035380336,"about_ca_topic_score_gemma":0.0000068958548,"teacher_disagreement_score":0.023098307,"about_ca_system_score_codex":0.00024929154,"about_ca_system_score_gemma":0.00013411266,"threshold_uncertainty_score":0.9898542},"labels":[],"label_agreement":null},{"id":"W4283837452","doi":"10.1002/adma.202202612","title":"Directed Evolution Enables Simultaneous Controlled Release of Multiple Therapeutic Proteins from Biopolymer‐Based Hydrogels","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Monoclonal and Polyclonal Antibodies Research","field":"Medicine","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University Health Network; Toronto Rehabilitation Institute; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Self-healing hydrogels; Biopolymer; Controlled release; Biophysics; Growth factor; Materials science; Dissociation constant; Nanotechnology; Computational biology; Biochemistry; Chemistry; Biology; Polymer; Receptor","score_opus":0.014067586826750631,"score_gpt":0.2735664919227667,"score_spread":0.2594989050960161,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4283837452","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99376225,0.002069911,0.00027083143,0.00044408962,0.00023680851,0.0017968846,0.00107951,0.00013834717,0.00020136307],"genre_scores_gemma":[0.9959585,0.000049478458,0.0017261044,0.00023466155,0.000104697785,0.0004951159,0.0003719395,0.000038699578,0.0010207747],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99775857,0.000319491,0.0005357831,0.00034239388,0.0006807271,0.00036306438],"domain_scores_gemma":[0.9983825,0.00072236237,0.00024793416,0.00033607727,0.00018633722,0.00012475393],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00027361652,0.00021449079,0.00076284964,0.00013626654,0.00021517037,0.000012743473,0.00015499102,0.00005686635,0.0023362539],"category_scores_gemma":[0.00055170275,0.00017201302,0.00014100484,0.00021910144,0.00011931953,0.000055572462,0.000096140844,0.00013539466,0.000020939066],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.021141909,0.00043501786,0.00033622188,0.000106964966,0.00015520002,0.00009549808,0.00005382236,0.0010443941,0.9740736,0.000110170986,0.000020886764,0.0024263277],"study_design_scores_gemma":[0.010999109,0.00081463845,0.00047808234,0.000074527,0.000100425656,0.0000121777275,0.00009129853,0.0040957895,0.9774394,0.00060069445,0.0051002926,0.00019357118],"about_ca_topic_score_codex":0.0015062176,"about_ca_topic_score_gemma":0.000022304937,"teacher_disagreement_score":0.0101428,"about_ca_system_score_codex":0.00015162544,"about_ca_system_score_gemma":0.00021553006,"threshold_uncertainty_score":0.99857575},"labels":[],"label_agreement":null},{"id":"W4286214911","doi":"10.1002/adma.202204845","title":"Structure/Interface Coupling Effect for High‐Voltage LiCoO<sub>2</sub> Cathodes","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Energy Efficiency; Basic Energy Sciences; Fundamental Research Funds for the Central Universities; National Key Research and Development Program of China; Office of Science; Vehicle Technologies Office; Université Mohammed VI Polytechnique; Central South University; University of Chicago; State Key Laboratory of Powder Metallurgy; National Natural Science Foundation of China; Argonne National Laboratory; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada","keywords":"Materials science; Cathode; Electrolyte; Electrode; Chemical engineering; Dissolution; Amorphous solid; Nanotechnology; Crystallography; Electrical engineering; Physical chemistry","score_opus":0.006387127878274921,"score_gpt":0.2417928559929739,"score_spread":0.23540572811469898,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4286214911","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96283025,0.00024988156,0.026436208,0.000016039883,0.0066913785,0.0013115783,0.0017904243,0.00065481086,0.000019415726],"genre_scores_gemma":[0.9937353,0.00003807261,0.0042199376,0.00009135332,0.00029961727,0.0011429321,0.00022871107,0.00020771695,0.00003636043],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99790204,0.00006400886,0.0005966329,0.00047786185,0.00031529486,0.000644157],"domain_scores_gemma":[0.9989477,0.00025147884,0.0001656267,0.00051144976,0.000052380565,0.00007136839],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00053371664,0.00044532111,0.0006565595,0.00010875775,0.00030780007,0.00010244662,0.0003957468,0.000074822114,0.00056475453],"category_scores_gemma":[0.00011090646,0.00047476275,0.000046811594,0.0001223627,0.000040329716,0.00032367007,0.00024514366,0.00012511104,0.00002844749],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017931222,0.000011670401,0.000003919998,0.0002941144,0.00003960143,0.0000047679264,0.00005571867,0.19642927,0.8012517,0.00018808924,0.0003374032,0.0012044025],"study_design_scores_gemma":[0.0011607468,0.0002563366,0.00002684735,0.00003993388,0.00004239777,0.000013492348,0.00002857152,0.00016147329,0.9929371,0.0022647576,0.0025716254,0.00049672805],"about_ca_topic_score_codex":0.0000039973293,"about_ca_topic_score_gemma":0.0000020426276,"teacher_disagreement_score":0.1962678,"about_ca_system_score_codex":0.00037282534,"about_ca_system_score_gemma":0.000016195989,"threshold_uncertainty_score":0.9997704},"labels":[],"label_agreement":null},{"id":"W4288428512","doi":"10.1002/adma.202201838","title":"Self‐Formation CoO Nanodots Catalyst in Co(TFSI)<sub>2</sub>‐Modified Electrolyte for High Efficient Li‐O<sub>2</sub> Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"University of Waterloo; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Overpotential; Electrolyte; Materials science; Catalysis; Cathode; Passivation; Chemical engineering; Cobalt; Inorganic chemistry; Electrode; Nanotechnology; Electrochemistry; Physical chemistry; Organic chemistry; Chemistry; Metallurgy; Layer (electronics)","score_opus":0.005943713674976748,"score_gpt":0.20177541744753763,"score_spread":0.19583170377256087,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4288428512","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9893232,0.00020315025,0.004889604,0.000095435025,0.0016507425,0.0013725708,0.0008918558,0.0015291118,0.000044339828],"genre_scores_gemma":[0.9955357,0.00033128544,0.0010606187,0.000103651866,0.000105848216,0.0020128,0.00070005085,0.00014495033,0.0000051392803],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997177,0.000088509114,0.0009364074,0.000527475,0.0003702023,0.00090041716],"domain_scores_gemma":[0.9989049,0.00012120968,0.0002784783,0.00054468773,0.00008308487,0.00006768041],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000488727,0.0005233625,0.0007567018,0.00035048154,0.0003363731,0.00012683745,0.00041511527,0.00016115514,0.000030982126],"category_scores_gemma":[0.00008003549,0.0005655938,0.00007820488,0.00034639752,0.00006965562,0.0005152424,0.00021041113,0.00019280725,0.0000478191],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025438872,0.00007035131,0.0000020562243,0.00040506342,0.00003524872,0.000017367069,0.00015551099,0.059463557,0.93623763,0.00047814052,0.00029128598,0.002589368],"study_design_scores_gemma":[0.0015427074,0.00021652484,0.00012876977,0.000052035808,0.000030333653,0.000030769253,0.00014066184,0.00060563197,0.9940262,0.0012340958,0.0013502879,0.00064201193],"about_ca_topic_score_codex":0.0000057277575,"about_ca_topic_score_gemma":0.000014659437,"teacher_disagreement_score":0.058857925,"about_ca_system_score_codex":0.00057230855,"about_ca_system_score_gemma":0.000036772166,"threshold_uncertainty_score":0.99967957},"labels":[],"label_agreement":null},{"id":"W4288435617","doi":"10.1002/adma.202203417","title":"“Tree‐Trunk” Design for Flexible Quasi‐Solid‐State Electrolytes with Hierarchical Ion‐Channels Enabling Ultralong‐Life Lithium‐Metal Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":117,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"Beijing Synchrotron Radiation Facility; Mitacs; University of Waterloo; Natural Sciences and Engineering Research Council of Canada; Guangdong Science and Technology Department; Canadian Light Source","keywords":"Materials science; Lithium metal; Lithium (medication); Electrolyte; Nanotechnology; Solid-state; Ion; Fast ion conductor; Chemical engineering; Inorganic chemistry; Electrode; Engineering physics; Organic chemistry; Physical chemistry; Engineering","score_opus":0.015029633274816531,"score_gpt":0.2338394051683924,"score_spread":0.21880977189357587,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4288435617","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7842693,0.0004056638,0.20919839,0.00026440297,0.0017778252,0.0012200932,0.00042370943,0.0023852354,0.000055436514],"genre_scores_gemma":[0.9625868,0.00020777236,0.03399246,0.00018956703,0.00024883615,0.002164948,0.00013538744,0.00019955597,0.00027464345],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99728084,0.00010776947,0.00066320086,0.00058229006,0.00035778258,0.0010081135],"domain_scores_gemma":[0.9988729,0.00027667833,0.00016945538,0.000472151,0.00009073632,0.00011811602],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048723645,0.00053518644,0.0008135615,0.00023376606,0.000467162,0.00019289224,0.0004634054,0.00009481764,0.00037690465],"category_scores_gemma":[0.00015928618,0.00048395776,0.000081890415,0.00029531823,0.00013808913,0.0005671315,0.00015380878,0.00022632362,0.000015343301],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00082453794,0.000051801682,0.000004001413,0.00018988631,0.000100184705,0.000020028205,0.00015290306,0.10166354,0.89387774,0.0006693834,0.00043226412,0.002013708],"study_design_scores_gemma":[0.001130793,0.0011103648,0.000018008688,0.00004508982,0.00003549708,0.00005563554,0.00024361123,0.00032875966,0.9773078,0.010733194,0.00832337,0.0006678982],"about_ca_topic_score_codex":0.000006330473,"about_ca_topic_score_gemma":0.0000030583083,"teacher_disagreement_score":0.17831758,"about_ca_system_score_codex":0.00012383437,"about_ca_system_score_gemma":0.000063346866,"threshold_uncertainty_score":0.9997612},"labels":[],"label_agreement":null},{"id":"W4288445917","doi":"10.1002/adma.202203354","title":"In Situ Characterization of the Protein Corona of Nanoparticles In Vitro and In Vivo","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Protein Interaction Studies and Fluorescence Analysis","field":"Biochemistry, Genetics and Molecular Biology","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique; Université de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"In situ; In vivo; Nanomedicine; Materials science; Nanoparticle; Biophysics; Particle (ecology); Protein adsorption; Nanotechnology; In vitro; Adsorption; Characterization (materials science); Biomolecule; Biological system; Chemistry; Polymer; Biochemistry; Biology; Physical chemistry; Organic chemistry","score_opus":0.005035398173814692,"score_gpt":0.2325331654183951,"score_spread":0.22749776724458043,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4288445917","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9995489,0.00006262894,0.00000521245,0.00009266415,0.000044356115,0.00019868382,0.00003451358,6.15566e-7,0.000012433058],"genre_scores_gemma":[0.9996805,0.00005860492,0.000055220753,0.000040274062,0.0000061861388,0.000109936016,0.0000069267708,0.0000034534162,0.000038854632],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99947965,0.00006973713,0.00021708597,0.00010310024,0.000061990766,0.00006840728],"domain_scores_gemma":[0.99976844,0.0000033778065,0.000110632885,0.00009475868,0.000017711342,0.000005095779],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014406371,0.000043026557,0.00012273154,0.00003328942,0.000016519358,0.000002138754,0.000057241985,0.00001537848,0.000027571472],"category_scores_gemma":[0.000037868787,0.00003648731,0.000013677105,0.0001021822,0.000028063461,0.0000065505046,0.00012283662,0.000021364434,8.094165e-8],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034115528,0.000038722446,0.0007607677,0.000016135124,0.0000039546935,5.654498e-7,0.00006276907,0.00003111049,0.9985161,0.0000123940645,0.0000011094905,0.00021525074],"study_design_scores_gemma":[0.00030077324,0.000035293928,0.008956663,0.0000144853,0.0000016863163,6.410489e-7,0.00011226853,0.0000028150334,0.99017876,0.000046358706,0.00031442763,0.000035838417],"about_ca_topic_score_codex":0.000060852708,"about_ca_topic_score_gemma":0.00007888653,"teacher_disagreement_score":0.008337317,"about_ca_system_score_codex":0.0000134374895,"about_ca_system_score_gemma":0.0000106005955,"threshold_uncertainty_score":0.14879093},"labels":[],"label_agreement":null},{"id":"W4291020063","doi":"10.1002/adma.202204637","title":"Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO<sub>2</sub> Electroreduction","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Guangdong Science and Technology Department; Basic and Applied Basic Research Foundation of Guangdong Province; University of Waterloo; China Postdoctoral Science Foundation","keywords":"Materials science; Nanopore; Electrochemistry; Catalysis; Faraday efficiency; Nanotechnology; Chemical engineering; Noble metal; Substrate (aquarium); Reversible hydrogen electrode; Leaching (pedology); Electrode; Metal; Working electrode; Metallurgy","score_opus":0.011547756025768352,"score_gpt":0.24061696965993148,"score_spread":0.22906921363416313,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4291020063","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98628753,0.00018995655,0.011909399,0.000073422554,0.0006360382,0.00043170567,0.0000828448,0.00016867013,0.00022043458],"genre_scores_gemma":[0.997619,0.00015950583,0.0013538715,0.000021270604,0.000093021205,0.00031178302,0.0002998125,0.000031555523,0.00011020444],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998611,0.00014940104,0.00039980578,0.00032342153,0.00028578,0.0002306246],"domain_scores_gemma":[0.99932843,0.000024768928,0.00023933707,0.00025612966,0.00010336434,0.000047989193],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004847665,0.00016242584,0.00029551916,0.0001355245,0.00017386726,0.00003123852,0.000089466026,0.00004807175,0.00023076164],"category_scores_gemma":[0.000033868608,0.00016583325,0.000040041454,0.00023278018,0.00005731308,0.00014347272,0.00007853006,0.000080634985,0.0000062811955],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023046204,0.000075355325,6.108285e-7,0.000030102869,0.000015294636,0.0000015258721,0.00032257583,0.0083249165,0.9775812,0.0011870253,0.00043552666,0.011795387],"study_design_scores_gemma":[0.0002927707,0.00024768827,0.000020502195,0.000013081259,0.000029084089,0.00005208777,0.0005569303,0.00006837276,0.99502695,0.0010842268,0.0024405255,0.00016779703],"about_ca_topic_score_codex":0.00020112329,"about_ca_topic_score_gemma":0.000008305124,"teacher_disagreement_score":0.017445715,"about_ca_system_score_codex":0.00019979838,"about_ca_system_score_gemma":0.000049207134,"threshold_uncertainty_score":0.6762484},"labels":[],"label_agreement":null},{"id":"W4291397349","doi":"10.1002/adma.202204476","title":"Surface Co‐Modification of Halide Anions and Potassium Cations Promotes High‐Rate CO<sub>2</sub>‐to‐Ethanol Electrosynthesis","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Canadian Light Source (Canada); University of Saskatchewan","funders":"National Key Research and Development Program of China; Science and Technology Commission of Shanghai Municipality; Shanghai Municipal Education Commission; National Natural Science Foundation of China","keywords":"Electrosynthesis; Electrocatalyst; Electrochemistry; Faraday efficiency; Halide; Materials science; Catalysis; Inorganic chemistry; Surface modification; Fluorine; Potassium; Alkali metal; Physical chemistry; Electrode; Chemistry; Organic chemistry","score_opus":0.013005833606221729,"score_gpt":0.2656824008884593,"score_spread":0.2526765672822376,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4291397349","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969705,0.00006114412,0.0006060412,0.000775825,0.00018021192,0.0004815677,0.0005166226,0.00019777527,0.0002103437],"genre_scores_gemma":[0.9974168,0.00013213967,0.0014308571,0.00005732508,0.000035167897,0.0003998186,0.0003168585,0.00003977238,0.00017128655],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986541,0.000194474,0.0003853787,0.00033620693,0.00019974112,0.00023007528],"domain_scores_gemma":[0.9990982,0.00007540757,0.00023990846,0.00039476439,0.000121416386,0.00007030348],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039889518,0.00015826582,0.00028347643,0.000105261235,0.00025860552,0.00003550325,0.00015156613,0.00004864143,0.00023998866],"category_scores_gemma":[0.00010248581,0.0001729655,0.00003599482,0.00025779233,0.000048408223,0.00014562813,0.00006788405,0.00006299716,0.00001764576],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006159528,0.00007089906,0.0000059123345,0.0000292782,0.000020078918,7.3693076e-7,0.00013889516,0.0006553786,0.99121755,0.005025391,0.00032792828,0.0024463276],"study_design_scores_gemma":[0.00016086282,0.00012524615,0.0005519508,0.000012447128,0.000029060044,0.000011405413,0.00009902254,0.0000055179657,0.9911875,0.0026086818,0.005026126,0.00018215833],"about_ca_topic_score_codex":0.00032738107,"about_ca_topic_score_gemma":0.000026001291,"teacher_disagreement_score":0.004698198,"about_ca_system_score_codex":0.00013087729,"about_ca_system_score_gemma":0.000055618275,"threshold_uncertainty_score":0.7053329},"labels":[],"label_agreement":null},{"id":"W4292397348","doi":"10.1002/adma.202203842","title":"Charge Transport in Twisted Organic Semiconductor Crystals of Modulated Pitch","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Argonne National Laboratory; Basic Energy Sciences; Materials Research Science and Engineering Center, Harvard University; Division of Materials Research; Office of Science; Fédération Wallonie-Bruxelles; U.S. Department of Energy; Fonds De La Recherche Scientifique - FNRS; York University; National Science Foundation","keywords":"Materials science; Crystallite; Semiconductor; Organic semiconductor; Scattering; Condensed matter physics; Charge carrier; Electron mobility; Chemical physics; Charge (physics); Perpendicular; Fiber; Crystallography; Optics; Optoelectronics; Composite material; Chemistry","score_opus":0.0057513258986349675,"score_gpt":0.19480616909680143,"score_spread":0.18905484319816646,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4292397348","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99835455,0.00032987384,0.000023704428,0.000011228747,0.00048338895,0.00026855053,0.0002625978,0.00013510292,0.00013097616],"genre_scores_gemma":[0.9994457,0.00013431266,0.000063927124,0.000022318653,0.000019942949,0.00004484455,0.000095104464,0.00006604666,0.00010780308],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988992,0.00003015447,0.00043220047,0.00016921684,0.00017389246,0.0002953378],"domain_scores_gemma":[0.99962544,0.00001649048,0.00006504132,0.00022879377,0.000029269926,0.000034936424],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00023297347,0.00015029813,0.0003396033,0.00008622067,0.00003172606,0.0000048946704,0.00016727399,0.000047581158,0.0037966624],"category_scores_gemma":[0.000010908538,0.00017412893,0.00002934932,0.00032007764,0.000010930219,0.00008394003,0.000028169636,0.00012268701,0.0000065139375],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000025094778,0.000030294763,0.000051701136,0.00008499699,0.000018778963,0.000007680893,0.0002502719,0.0027201867,0.99663115,0.000114217946,0.000036317404,0.000029296578],"study_design_scores_gemma":[0.00057090813,0.000058496564,0.00025603527,0.000013039993,0.000008447326,0.0000073268716,0.000032967993,0.00011112624,0.9961553,0.00045571855,0.0021495267,0.00018108751],"about_ca_topic_score_codex":0.0000270504,"about_ca_topic_score_gemma":0.000019386423,"teacher_disagreement_score":0.0037901485,"about_ca_system_score_codex":0.00017641338,"about_ca_system_score_gemma":0.0000432489,"threshold_uncertainty_score":0.997114},"labels":[],"label_agreement":null},{"id":"W4294335244","doi":"10.1002/adma.202205229","title":"Super‐Reversible CuF<sub>2</sub> Cathodes Enabled by Cu<sup>2+</sup>‐Coordinated Alginate","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"China Scholarship Council","keywords":"Materials science; Dissolution; Ethylene carbonate; Electrolyte; Cathode; Copper; Chemical engineering; Propylene carbonate; Inorganic chemistry; Electrode; Metallurgy","score_opus":0.00712479144385429,"score_gpt":0.2163583841289478,"score_spread":0.20923359268509353,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4294335244","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9898236,0.0005116263,0.0026917958,0.00010864891,0.0024843449,0.00090523856,0.001458705,0.0012325407,0.00078351167],"genre_scores_gemma":[0.99440575,0.00022417189,0.0024775323,0.00035059956,0.0001520656,0.0009112836,0.00061926886,0.00027576342,0.0005835475],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99640924,0.0002939311,0.00087999075,0.00073277124,0.0005603959,0.0011237031],"domain_scores_gemma":[0.99862105,0.0001346164,0.00017398315,0.0007992728,0.000105808576,0.00016525858],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007675635,0.00065716356,0.0008671762,0.00022581813,0.00046327102,0.00014946723,0.0006929435,0.00012575163,0.0038140747],"category_scores_gemma":[0.000115849536,0.0007596862,0.000073638774,0.000423436,0.00008709864,0.00089497265,0.00049282605,0.00023726623,0.00033314223],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011507119,0.00006873,0.000010214452,0.0001861173,0.00007507829,0.00004993372,0.00023821049,0.08286473,0.90104973,0.00012542249,0.013671463,0.0015452774],"study_design_scores_gemma":[0.001447933,0.00012444126,0.000013781112,0.000034591816,0.000050622242,0.000042758267,0.00029531526,0.00029031618,0.9643349,0.0013267226,0.031201543,0.00083705556],"about_ca_topic_score_codex":0.000021549293,"about_ca_topic_score_gemma":7.6547474e-7,"teacher_disagreement_score":0.08257441,"about_ca_system_score_codex":0.00064999005,"about_ca_system_score_gemma":0.000040273255,"threshold_uncertainty_score":0.99948543},"labels":[],"label_agreement":null},{"id":"W4294904547","doi":"10.1002/adma.202202390","title":"Single‐Crystal Perovskite Solar Cells Exhibit Close to Half A Millimeter Electron‐Diffusion Length","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"Natural Sciences and Engineering Research Council of Canada; Innosuisse - Schweizerische Agentur für Innovationsförderung; King Abdullah University of Science and Technology","keywords":"Perovskite (structure); Materials science; Photovoltaics; Optoelectronics; Energy conversion efficiency; Charge carrier; Semiconductor; Perovskite solar cell; Diffusion; Carrier lifetime; Crystal (programming language); Crystallite; Electron; Electron mobility; Nanotechnology; Photovoltaic system; Crystallography; Electrical engineering; Chemistry; Silicon","score_opus":0.006241734354644069,"score_gpt":0.20533847388252344,"score_spread":0.19909673952787937,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4294904547","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955396,0.00011314431,0.0009097304,0.00015251443,0.001033919,0.00062286673,0.00050845614,0.00046835982,0.00065142487],"genre_scores_gemma":[0.9947901,0.000069763286,0.0033805238,0.00035995585,0.00021794192,0.00062760717,0.0001350429,0.0001181136,0.0003009482],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981666,0.00007098851,0.00044934545,0.00041722116,0.00031405152,0.0005817787],"domain_scores_gemma":[0.9992158,0.000035098506,0.00006873466,0.00048332522,0.000054382625,0.00014269601],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002556644,0.00030649974,0.00037661247,0.0001347273,0.0002864776,0.00012306856,0.00030292553,0.0000587651,0.0016586563],"category_scores_gemma":[0.000018842795,0.00032998214,0.00006899457,0.00023064204,0.000019725605,0.00017543373,0.00024216188,0.00011316501,0.00020152777],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005382431,0.00007377895,6.934895e-7,0.000040927673,0.000016688984,0.000006020136,0.00021758843,0.0029228076,0.9934462,0.00012669113,0.0013208443,0.001773967],"study_design_scores_gemma":[0.00031455583,0.00014421954,0.000030097928,0.000011721717,0.000015482728,0.000010897,0.000048019898,0.000032352236,0.77325726,0.00024127957,0.22557212,0.00032200728],"about_ca_topic_score_codex":0.000023917859,"about_ca_topic_score_gemma":0.000009623379,"teacher_disagreement_score":0.22425127,"about_ca_system_score_codex":0.00025077356,"about_ca_system_score_gemma":0.000016790618,"threshold_uncertainty_score":0.99991524},"labels":[],"label_agreement":null},{"id":"W4296634874","doi":"10.1002/adma.202206884","title":"Electron‐Transport Layers Employing Strongly Bound Ligands Enhance Stability in Colloidal Quantum Dot Infrared Photodetectors","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Photodetector; Materials science; Passivation; Optoelectronics; Quantum dot; Active layer; Quantum efficiency; Layer (electronics); Colloid; Nanotechnology; Chemical engineering","score_opus":0.016064075510018642,"score_gpt":0.2528612053723929,"score_spread":0.23679712986237428,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4296634874","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966018,0.00041913652,0.00002152115,0.00006063945,0.0013391138,0.00071010954,0.00041548297,0.00020636576,0.00022579671],"genre_scores_gemma":[0.9985566,0.00007022148,0.00025909176,0.00008878969,0.000067145964,0.0006555137,0.000026887645,0.00006626303,0.0002094502],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99628615,0.00033380618,0.0009421704,0.00080402195,0.00071498204,0.000918871],"domain_scores_gemma":[0.99873394,0.00015174485,0.00031925048,0.0005962879,0.00008708405,0.0001117207],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0020725064,0.00038301302,0.0007254466,0.00013935559,0.00052326964,0.0001350249,0.000582631,0.00008150413,0.0053305347],"category_scores_gemma":[0.00017360822,0.00036839393,0.000089482644,0.0003238965,0.00016264345,0.0005818179,0.00017658263,0.00021409786,0.000045368386],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010976187,0.00012483943,0.0006530386,0.00009160717,0.000009100511,0.00001741433,0.0010582305,0.0007683536,0.99592894,0.00014143864,0.00003099016,0.000078413366],"study_design_scores_gemma":[0.0005939319,0.00039800035,0.0014770679,0.000037602233,0.000010595104,0.0000066958155,0.00082835805,0.000011656896,0.99169797,0.0010222953,0.0034431885,0.00047264644],"about_ca_topic_score_codex":0.000544753,"about_ca_topic_score_gemma":0.0002568164,"teacher_disagreement_score":0.005285166,"about_ca_system_score_codex":0.0004965575,"about_ca_system_score_gemma":0.00028626542,"threshold_uncertainty_score":0.9998768},"labels":[],"label_agreement":null},{"id":"W4297855447","doi":"10.1002/adma.202207261","title":"Engineering Electro‐Optic BaTiO<sub>3</sub> Nanocrystals via Efficient Doping","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photorefractive and Nonlinear Optics","field":"Physics and Astronomy","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; University of Toronto; Government of Ontario","keywords":"Materials science; Doping; Barium titanate; Optoelectronics; Dielectric spectroscopy; Refractive index; Ion; Polarization (electrochemistry); Density functional theory; Electrochemistry; Electrode; Dielectric; Physical chemistry","score_opus":0.0040782229993224514,"score_gpt":0.20987344023588225,"score_spread":0.2057952172365598,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4297855447","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98981684,0.00003494951,0.0086855525,0.000019153485,0.0005942373,0.00028373976,0.00013733248,0.00006331261,0.0003648986],"genre_scores_gemma":[0.99773425,0.0000029532866,0.0016139746,0.000035573205,0.00024510222,0.00018440308,0.00010777558,0.00004198032,0.00003397382],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99883014,0.000049569444,0.00026869838,0.0002627519,0.00022097173,0.00036784654],"domain_scores_gemma":[0.99945813,0.000070650625,0.00013941068,0.00022093968,0.000052074178,0.00005881318],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023066635,0.00018208064,0.00025002068,0.00006597687,0.00021183238,0.000043597225,0.00014433183,0.000017040056,0.0005510912],"category_scores_gemma":[0.000014037209,0.00019790545,0.000060804807,0.00015088182,0.000012439963,0.000102923834,0.00013359266,0.00011935532,0.000045081662],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032917786,0.00006731401,0.000011291521,0.000013546327,0.00003414185,0.0000037490777,0.000055658387,0.010181502,0.9879013,0.0007333149,0.00002669925,0.00093857525],"study_design_scores_gemma":[0.00035948263,0.00006605789,0.000043151387,0.000012435434,0.000018193165,0.000003326918,0.00004239055,0.0010584948,0.99506205,0.0003911469,0.0027136777,0.00022956864],"about_ca_topic_score_codex":0.000008807602,"about_ca_topic_score_gemma":8.144973e-8,"teacher_disagreement_score":0.009123008,"about_ca_system_score_codex":0.00010992541,"about_ca_system_score_gemma":0.00004468906,"threshold_uncertainty_score":0.80703497},"labels":[],"label_agreement":null},{"id":"W4298089159","doi":"10.1002/adma.202207344","title":"Regulation of Outer Solvation Shell Toward Superior Low‐Temperature Aqueous Zinc‐Ion Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":260,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"","keywords":"Materials science; Solvation; Anode; Aqueous solution; Chemical engineering; Eutectic system; Electrochemistry; Electrolyte; Solvation shell; Current density; Ion; Composite material; Physical chemistry; Electrode; Microstructure; Organic chemistry; Chemistry","score_opus":0.010576761233118308,"score_gpt":0.24153090689132392,"score_spread":0.2309541456582056,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4298089159","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960773,0.00018300352,0.0012390212,0.00021044236,0.00095101254,0.00043044286,0.00020341077,0.00057332026,0.00013202323],"genre_scores_gemma":[0.99576986,0.00013032724,0.0032777053,0.00005176723,0.000067191046,0.00026002325,0.00018027452,0.000067197005,0.00019566747],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985153,0.000060217426,0.0004314145,0.00026190307,0.00039564777,0.00033553768],"domain_scores_gemma":[0.9993104,0.00004548076,0.00008321592,0.00043397184,0.00009659255,0.000030347408],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020145663,0.00020792718,0.0003365376,0.00017894583,0.000121333316,0.00003810391,0.00029442945,0.000099475794,0.0011349944],"category_scores_gemma":[0.00007243874,0.0002208466,0.000041397347,0.0002482216,0.000075126816,0.00044027818,0.00024020426,0.00018675461,0.000019936822],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000887086,0.000016353908,0.000014542732,0.00019670205,0.000014452975,0.000007650807,0.00020205595,0.03865279,0.9546529,0.00013948743,0.00029510935,0.005719255],"study_design_scores_gemma":[0.0003474376,0.00011341705,0.00043491623,0.000036235644,0.0000052259347,0.000015854093,0.0002586965,0.00015731195,0.9920901,0.0012684725,0.005045754,0.000226573],"about_ca_topic_score_codex":0.0000043475807,"about_ca_topic_score_gemma":0.0000019186682,"teacher_disagreement_score":0.038495477,"about_ca_system_score_codex":0.00026271484,"about_ca_system_score_gemma":0.000019383695,"threshold_uncertainty_score":0.9997781},"labels":[],"label_agreement":null},{"id":"W4306391014","doi":"10.1002/adma.202207088","title":"High‐Rate and Selective CO<sub>2</sub> Electrolysis to Ethylene via Metal–Organic‐Framework‐Augmented CO<sub>2</sub> Availability","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":162,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"King Abdullah University of Science and Technology; National Research Foundation of Korea","keywords":"Materials science; Ethylene; Electrolysis; Metal; Metal-organic framework; Inorganic chemistry; Chemical engineering; Nanotechnology; Metallurgy; Organic chemistry; Catalysis; Physical chemistry; Electrode; Adsorption","score_opus":0.006389227968353912,"score_gpt":0.2415093171822823,"score_spread":0.23512008921392838,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4306391014","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9937383,0.00020840754,0.0027267577,0.00046395147,0.0006845051,0.0010173043,0.0003215443,0.0007197581,0.00011948198],"genre_scores_gemma":[0.9956165,0.0004426141,0.0012366518,0.0007414698,0.00020019097,0.0011902084,0.00032304876,0.0001472019,0.00010211662],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957216,0.00070979254,0.0009036125,0.0012289352,0.0005947927,0.0008412672],"domain_scores_gemma":[0.99785745,0.00021307873,0.00043946455,0.00091900193,0.0002935932,0.00027738573],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012637256,0.0005870555,0.001018207,0.0002906638,0.00059405406,0.00012254702,0.00038159778,0.00021597488,0.0011939984],"category_scores_gemma":[0.00037227303,0.0006379228,0.0001615331,0.0009996209,0.00011636208,0.000349367,0.00036199414,0.00041842353,0.00015177124],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00081514113,0.00018382758,0.000007195906,0.00004891023,0.00022510004,0.000014034382,0.00020442525,0.00029195496,0.98313355,0.00077998365,0.0007017317,0.013594165],"study_design_scores_gemma":[0.00068552484,0.000584406,0.00027381795,0.000020033856,0.0001604728,0.000051261977,0.00010142338,0.0000057680286,0.98163134,0.011739432,0.0040790965,0.0006674203],"about_ca_topic_score_codex":0.00021316946,"about_ca_topic_score_gemma":0.00009815477,"teacher_disagreement_score":0.012926745,"about_ca_system_score_codex":0.0007732611,"about_ca_system_score_gemma":0.00010641535,"threshold_uncertainty_score":0.999719},"labels":[],"label_agreement":null},{"id":"W4307426113","doi":"10.1002/adma.202207950","title":"A Janus Au–Polymersome Heterostructure with Near‐Field Enhancement Effect for Implant‐Associated Infection Phototherapy","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Centre in Green Chemistry and Catalysis; Institut National de la Recherche Scientifique","funders":"National Natural Science Foundation of China","keywords":"Materials science; Photothermal therapy; Janus; Polymersome; Singlet oxygen; Nanotechnology; Porphyrin; Nanoparticle; Nanostructure; Heterojunction; Rational design; Polymer; Optoelectronics; Photochemistry; Copolymer; Chemistry; Organic chemistry","score_opus":0.005743462711427056,"score_gpt":0.23869140975932474,"score_spread":0.23294794704789767,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4307426113","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975521,0.00003112487,0.00029838542,0.00014143679,0.0006088303,0.000940963,0.00028573745,0.000091890855,0.00004954276],"genre_scores_gemma":[0.9969069,0.00000990413,0.00057702814,0.00034547108,0.000058649486,0.0019157131,0.0000529092,0.000026352094,0.000107087384],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986894,0.00011475986,0.000253658,0.00033680204,0.00023327816,0.00037206872],"domain_scores_gemma":[0.9993204,0.000151505,0.00019942848,0.00023177793,0.000039373317,0.000057516147],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00038751887,0.00017995725,0.00029665482,0.000029974617,0.000700815,0.0001094939,0.00013862873,0.00003856187,0.0012063455],"category_scores_gemma":[0.000030680643,0.0001408838,0.000054137745,0.00011319672,0.000036948015,0.00012644094,0.000046899317,0.00004528873,0.000015147598],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006040963,0.000071476796,0.00018443991,0.000022849723,0.00001719563,0.0000014198099,0.00017801576,0.00011854609,0.99673355,0.00011342809,0.00013769476,0.0018173006],"study_design_scores_gemma":[0.0012097986,0.0013540674,0.000450991,0.000016639506,0.000028490333,0.000011871523,0.000023959476,0.000009441009,0.99108416,0.00018113843,0.005433447,0.00019597774],"about_ca_topic_score_codex":0.00021221927,"about_ca_topic_score_gemma":0.00004006231,"teacher_disagreement_score":0.005649359,"about_ca_system_score_codex":0.00014023695,"about_ca_system_score_gemma":0.000050766343,"threshold_uncertainty_score":0.9997067},"labels":[],"label_agreement":null},{"id":"W4307501598","doi":"10.1002/adma.202208178","title":"Refining Perovskite Heterojunctions for Effective Light‐Emitting Solar Cells","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; Natural Science Foundation of Beijing Municipality; China Postdoctoral Science Foundation; National Natural Science Foundation of China; Canada Research Chairs","keywords":"Perovskite (structure); Materials science; Heterojunction; Light-emitting diode; Electroluminescence; Optoelectronics; Semiconductor; Diode; Halide; Hybrid solar cell; Quantum efficiency; Photovoltaic system; Solar cell; Polymer solar cell; Nanotechnology; Inorganic chemistry; Crystallography; Chemistry","score_opus":0.004864375303559017,"score_gpt":0.20976139791537504,"score_spread":0.20489702261181603,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4307501598","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98495406,0.00010756647,0.008708129,0.00009005562,0.0028491472,0.00077755447,0.0007765553,0.00068796123,0.0010489586],"genre_scores_gemma":[0.9889643,0.000021270485,0.006028099,0.000091354304,0.00026427984,0.0042205337,0.00011408782,0.00009084734,0.0002051963],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99880385,0.000048919173,0.00037459107,0.00028106914,0.00013907993,0.00035248077],"domain_scores_gemma":[0.9994234,0.000106169005,0.000087657965,0.00028037708,0.000046670368,0.00005576126],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037693334,0.0001995588,0.00029856118,0.00008117593,0.0005217028,0.00008038014,0.00017044791,0.000042166463,0.0003247223],"category_scores_gemma":[0.000033426495,0.00021867795,0.000068215035,0.00013589163,0.000014148634,0.00015689003,0.000100340774,0.00008364827,0.000040424045],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024851779,0.000017906134,0.0000018202717,0.00007409074,0.00002458209,8.7867136e-7,0.00013406506,0.015946029,0.9796922,0.0002539654,0.00076954835,0.003060039],"study_design_scores_gemma":[0.00037340133,0.00006795087,0.00004008333,0.00001319576,0.000020901261,0.0000051803913,0.00007100026,0.00016273375,0.77059436,0.00025584237,0.22817896,0.00021638254],"about_ca_topic_score_codex":0.000009000462,"about_ca_topic_score_gemma":0.0000031223308,"teacher_disagreement_score":0.22740942,"about_ca_system_score_codex":0.00015563461,"about_ca_system_score_gemma":0.00001001069,"threshold_uncertainty_score":0.89174277},"labels":[],"label_agreement":null},{"id":"W4308774833","doi":"10.1002/adma.202208824","title":"Bionic Engineered Protein Coating Boosting Anti‐Biofouling in Complex Biological Fluids","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":102,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; China Scholarship Council; Canada Foundation for Innovation","keywords":"Biofouling; Materials science; Boosting (machine learning); Coating; Nanotechnology; Polymer science; Chemical engineering; Engineering; Chemistry; Computer science; Biochemistry","score_opus":0.04623370304976176,"score_gpt":0.29890506286887253,"score_spread":0.25267135981911076,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4308774833","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970889,0.00024306329,0.00027745217,0.00018924341,0.0011353813,0.00047014857,0.00015139888,0.00026331565,0.00018107476],"genre_scores_gemma":[0.99203587,0.000011219724,0.0072969487,0.00013228935,0.000069535454,0.00032524308,0.00003178182,0.000027427499,0.000069677015],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977003,0.00030766937,0.0006708,0.000470813,0.00031715288,0.0005332972],"domain_scores_gemma":[0.9992363,0.00017004492,0.00023978611,0.00024148278,0.000064314125,0.00004807664],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001022615,0.00022622837,0.00046789204,0.00012222084,0.00040090867,0.00009020317,0.00030131714,0.000041961343,0.002992446],"category_scores_gemma":[0.00044096346,0.00021630347,0.000041244988,0.00025951737,0.00007362227,0.00027590778,0.00054709055,0.0001413127,0.00012772567],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006653832,0.000043412736,0.00015243582,0.000020496604,0.000004871858,0.000019535466,0.00019095726,0.0015903817,0.99750453,0.00015765191,0.000031585114,0.00021758236],"study_design_scores_gemma":[0.0004801019,0.00009438414,0.001062925,0.00004380203,0.0000030854637,0.000018888877,0.0007683475,0.00008443767,0.9948065,0.00013704422,0.002235301,0.00026512626],"about_ca_topic_score_codex":0.00011454712,"about_ca_topic_score_gemma":0.0000059316367,"teacher_disagreement_score":0.0070194965,"about_ca_system_score_codex":0.00022033254,"about_ca_system_score_gemma":0.000035971138,"threshold_uncertainty_score":0.99791896},"labels":[],"label_agreement":null},{"id":"W4308909327","doi":"10.1002/adma.202207070","title":"A Materials Acceleration Platform for Organic Laser Discovery","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; University of Toronto","funders":"Defense Advanced Research Projects Agency; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; Canada Foundation for Innovation","keywords":"Nanotechnology; Materials science; Characterization (materials science); Workflow; Automation; Lasing threshold; Commercialization; Laser; Identification (biology); Computer science; Systems engineering; Mechanical engineering; Optoelectronics; Engineering; Physics","score_opus":0.014506298034046157,"score_gpt":0.2709881661592834,"score_spread":0.2564818681252372,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4308909327","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9846293,0.00002789259,0.0051588276,0.0003151408,0.0065451213,0.0013273051,0.0014466927,0.00037052622,0.0001792013],"genre_scores_gemma":[0.9820655,0.000009983381,0.013143998,0.0006916563,0.00045234588,0.001572977,0.00032351242,0.00010113441,0.0016388913],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99632233,0.00030963213,0.0008828477,0.00088500354,0.00079456146,0.00080564985],"domain_scores_gemma":[0.9982235,0.0002276628,0.0006029033,0.00069298875,0.00014981689,0.000103129154],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0028613347,0.0003862628,0.0006193717,0.00014065242,0.0011291043,0.0008665617,0.0009445652,0.00007616987,0.023475403],"category_scores_gemma":[0.00058641675,0.00036798613,0.000069177295,0.0002487362,0.000111543355,0.0017161571,0.00068651186,0.00009909343,0.00030397106],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00052399473,0.00007109581,0.000008579597,0.00009060149,0.0000060689526,0.000006106726,0.00018923063,0.0025856653,0.9930085,0.0026253713,0.0007305248,0.0001542516],"study_design_scores_gemma":[0.0010132003,0.0003427959,0.00017052455,0.000018232364,0.00002244041,0.000038515223,0.00015011813,0.000032066244,0.9838079,0.004098181,0.009827705,0.00047832076],"about_ca_topic_score_codex":0.00007204097,"about_ca_topic_score_gemma":0.000012837849,"teacher_disagreement_score":0.023171432,"about_ca_system_score_codex":0.00032334693,"about_ca_system_score_gemma":0.0001722425,"threshold_uncertainty_score":0.9998772},"labels":[],"label_agreement":null},{"id":"W4309360826","doi":"10.1002/adma.202209074","title":"Progress and Prospects of Inorganic Solid‐State Electrolyte‐Based All‐Solid‐State Pouch Cells","year":2022,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":227,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Western University; Canada Foundation for Innovation; U.S. Department of Energy","keywords":"Materials science; Solid-state; Electrolyte; Chemical engineering; Solid surface; Nanotechnology; Engineering physics; Chemical physics; Physical chemistry; Electrode; Chemistry","score_opus":0.015738899677367153,"score_gpt":0.27939504963194345,"score_spread":0.2636561499545763,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4309360826","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.014825469,0.97857547,0.00020540954,0.00000981453,0.0014027539,0.0024338525,0.0011232636,0.001375247,0.000048697875],"genre_scores_gemma":[0.009418551,0.98652357,0.0023344888,0.000020136285,0.00006512428,0.00101635,0.00020706866,0.0003496855,0.00006501295],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99645245,0.00012100825,0.0014240738,0.00073407736,0.00036154437,0.0009068453],"domain_scores_gemma":[0.99821115,0.00013633785,0.00068435917,0.00080663065,0.00006451673,0.00009700923],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032166633,0.0009823238,0.00304262,0.00034330197,0.00009543616,0.00012127256,0.0006080501,0.00026040658,0.00031944583],"category_scores_gemma":[0.000053072567,0.0008900278,0.00016698099,0.00037927457,0.00017844883,0.00026096797,0.00033890485,0.00034043886,0.000026499765],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007029056,0.00009643261,5.496843e-7,0.049845874,0.00042678486,0.00011881341,0.000063724605,0.00070498616,0.506826,0.00007861174,0.00013284327,0.4416351],"study_design_scores_gemma":[0.00040972396,0.00023578032,6.971452e-7,0.0018141109,0.00021085828,0.000041065658,0.0000061059254,0.0000068342706,0.6269474,0.00087293965,0.3686219,0.0008326117],"about_ca_topic_score_codex":0.0000025472536,"about_ca_topic_score_gemma":0.0000023128591,"teacher_disagreement_score":0.44080248,"about_ca_system_score_codex":0.00024244671,"about_ca_system_score_gemma":0.000108406086,"threshold_uncertainty_score":0.999355},"labels":[],"label_agreement":null},{"id":"W4309411872","doi":"10.1002/adma.202209338","title":"Formation and Stabilization of NiOOH by Introducing α‐FeOOH in LDH: Composite Electrocatalyst for Oxygen Evolution and Urea Oxidation Reactions","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":405,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Overpotential; Oxygen evolution; Electrocatalyst; Materials science; Hydroxide; Electrochemistry; X-ray photoelectron spectroscopy; Catalysis; Inorganic chemistry; Redox; Chemical engineering; Physical chemistry; Electrode; Chemistry","score_opus":0.0048467747284142645,"score_gpt":0.2135250220049667,"score_spread":0.20867824727655243,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4309411872","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9811908,0.00026553034,0.017752647,0.00013452748,0.00012857218,0.00039617158,0.000029974715,0.00004788379,0.000053882057],"genre_scores_gemma":[0.9960595,0.00010370605,0.0013876831,0.00002047087,0.000026246487,0.00019193,0.0021396717,0.000023384702,0.000047456844],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987989,0.000103526705,0.00043187581,0.00026832588,0.00020264539,0.0001947224],"domain_scores_gemma":[0.99932784,0.0000703745,0.00028309508,0.00016459682,0.00012549703,0.000028577297],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00052440015,0.00012453203,0.00022076498,0.00020883136,0.00019605708,0.000019924582,0.00006557661,0.00004653916,0.000022799959],"category_scores_gemma":[0.0001258276,0.00014507618,0.000017968756,0.0002578424,0.000025635827,0.00068886107,0.00006107026,0.0000527328,4.7767963e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029342357,0.000034802233,0.000050998242,0.00010774936,0.000011908021,1.0203871e-7,0.00019080119,0.005624674,0.9861828,0.0059278607,0.00004519763,0.0015296891],"study_design_scores_gemma":[0.0010591442,0.00019462206,0.0004014625,0.000020623549,0.00002872457,0.000011592995,0.00022394922,0.0012199512,0.99098194,0.0025426964,0.0031686018,0.00014668834],"about_ca_topic_score_codex":0.0006112455,"about_ca_topic_score_gemma":0.000262079,"teacher_disagreement_score":0.016364964,"about_ca_system_score_codex":0.00047437663,"about_ca_system_score_gemma":0.000027249958,"threshold_uncertainty_score":0.5916035},"labels":[],"label_agreement":null},{"id":"W4309515947","doi":"10.1002/adma.202207489","title":"Materials Research Thrives at Sichuan University","year":2022,"lang":"en","type":"editorial","venue":"Advanced Materials","topic":"Advanced materials and composites","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Materials science; Engineering ethics; Nanotechnology; Engineering physics; Engineering","score_opus":0.012202103759024667,"score_gpt":0.2660953158021931,"score_spread":0.25389321204316845,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4309515947","genre_codex":"editorial","genre_gemma":"editorial","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"editorial","genre_consensus":"editorial","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.10737496,0.00085714157,0.000033989283,0.000020548077,0.87922925,0.00080801477,0.007540829,0.0010565172,0.0030787718],"genre_scores_gemma":[0.04118568,0.015969407,0.0032392512,0.000025532432,0.911396,0.00041467397,0.009196458,0.0011131433,0.01745985],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9953294,0.00050021365,0.00068398064,0.0009092994,0.0014535026,0.0011236429],"domain_scores_gemma":[0.9974094,0.0007892303,0.00022059238,0.0010471293,0.00035425893,0.00017940735],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011680288,0.00072498026,0.0012354016,0.00034894387,0.00071956177,0.00021460619,0.0011395701,0.00065888325,0.009817076],"category_scores_gemma":[0.00028554155,0.00081752316,0.0001044289,0.00032380715,0.00019176863,0.00042563357,0.001322487,0.00058460055,0.0004751499],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024285485,0.000018040024,8.649309e-8,0.00036487426,0.00005611182,0.00007701891,0.00006357955,0.00062149036,0.5754785,0.0001965906,0.4227715,0.00010935079],"study_design_scores_gemma":[0.00040996875,0.00008807816,0.0000017082378,0.00008604126,0.000028229397,0.000002683124,0.00006532138,5.561648e-7,0.40733445,0.00059296197,0.5908835,0.0005064837],"about_ca_topic_score_codex":0.00006270743,"about_ca_topic_score_gemma":0.00002841277,"teacher_disagreement_score":0.16814402,"about_ca_system_score_codex":0.0015419103,"about_ca_system_score_gemma":0.00013436646,"threshold_uncertainty_score":0.99942756},"labels":[],"label_agreement":null},{"id":"W4310022812","doi":"10.1002/adma.202209386","title":"Inter‐Metal Interaction with a Threshold Effect in NiCu Dual‐Atom Catalysts for CO<sub>2</sub> Electroreduction","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":183,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Cancer Institute; Australian Research Council; National Computational Infrastructure; China Scholarship Council; Australian Synchrotron; University of Adelaide; Australian Nuclear Science and Technology Organisation","keywords":"Rational design; Catalysis; Materials science; Metal; Atom (system on chip); Density functional theory; Electron transfer; Synchrotron; Dual (grammatical number); Chemical physics; Electrocatalyst; Nanotechnology; Combinatorial chemistry; Computational chemistry; Physical chemistry; Chemistry; Physics; Computer science; Electrochemistry; Quantum mechanics; Electrode","score_opus":0.007258627791829637,"score_gpt":0.26262962249228955,"score_spread":0.25537099470045993,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310022812","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99646044,0.000065084605,0.00040525474,0.000112854046,0.0013408653,0.0009661142,0.000063955886,0.00027657283,0.00030887342],"genre_scores_gemma":[0.99575627,0.00003281319,0.00022541556,0.00006512858,0.00023627558,0.0028460014,0.0006410566,0.00007293327,0.00012412918],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99825287,0.00013250904,0.00045151066,0.00051265006,0.00026613474,0.0003843001],"domain_scores_gemma":[0.99919766,0.000054871158,0.00026314694,0.0003602145,0.00007096529,0.000053136322],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005392407,0.00027191985,0.00043880875,0.00027634748,0.00017765425,0.000054396158,0.00014659854,0.0000644645,0.000118348114],"category_scores_gemma":[0.000033420823,0.0002545005,0.00009849384,0.00033112784,0.000039233193,0.0004306229,0.00008534002,0.00017840133,0.0000149625475],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002036649,0.00009701888,0.000012544561,0.000062356165,0.000050896862,0.000011888504,0.00012783358,0.0005663926,0.9800355,0.0009862566,0.0008973821,0.015115301],"study_design_scores_gemma":[0.0011701613,0.0010988666,0.000038897968,0.000041106945,0.000044464476,0.0001875223,0.00020032597,0.000010806607,0.9805287,0.0009787318,0.015409476,0.0002909007],"about_ca_topic_score_codex":0.00018950233,"about_ca_topic_score_gemma":0.00019181105,"teacher_disagreement_score":0.014824401,"about_ca_system_score_codex":0.0005497705,"about_ca_system_score_gemma":0.000047051813,"threshold_uncertainty_score":0.9999907},"labels":[],"label_agreement":null},{"id":"W4310363906","doi":"10.1002/adma.202206345","title":"Efficient Inverted Perovskite Solar Cells via Improved Sequential Deposition","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Songshan Lake Materials Laboratory; National Key Research and Development Program of China; Engineering and Physical Sciences Research Council; China Oxford Scholarship Fund; Beijing Nova Program; Natural Science Foundation of Beijing Municipality; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Perovskite (structure); Energy conversion efficiency; Optoelectronics; Deposition (geology); Fabrication; Nanotechnology; Perovskite solar cell; Chemical engineering","score_opus":0.005068875738986987,"score_gpt":0.19934436422074894,"score_spread":0.19427548848176196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310363906","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97921777,0.00005277557,0.017328553,0.000035877776,0.0017289508,0.00045866615,0.00042510097,0.0005053686,0.0002469639],"genre_scores_gemma":[0.9966906,0.000020424955,0.0021775658,0.00013457875,0.00012871278,0.0005503344,0.00020188972,0.00006350418,0.000032428616],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99881315,0.00005891232,0.00035208842,0.00025539417,0.00019567707,0.00032478824],"domain_scores_gemma":[0.999495,0.000014319603,0.0000696548,0.00030050933,0.000049259364,0.00007125724],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00018867031,0.00019673601,0.00023468505,0.00007437749,0.00027831475,0.00007316241,0.00018603569,0.000045600103,0.0012416319],"category_scores_gemma":[0.000005582184,0.00021898754,0.00004730401,0.00015363234,0.000023551807,0.00006837076,0.00012478161,0.00008124609,0.00008647208],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024788453,0.00003365944,2.3757629e-7,0.00003930827,0.000014790004,0.0000030640144,0.00007523448,0.0833785,0.91536295,0.00006659521,0.00017717834,0.00082370354],"study_design_scores_gemma":[0.00042700683,0.000042635293,0.000027352744,0.000006207979,0.000020993528,0.000013481172,0.00003588287,0.019566827,0.9749484,0.00018933791,0.004461448,0.00026043208],"about_ca_topic_score_codex":0.000038056405,"about_ca_topic_score_gemma":0.0000034630682,"teacher_disagreement_score":0.063811675,"about_ca_system_score_codex":0.00018674313,"about_ca_system_score_gemma":0.000014573855,"threshold_uncertainty_score":0.99967134},"labels":[],"label_agreement":null},{"id":"W4310640604","doi":"10.1002/adma.202207234","title":"Manipulating Charge‐Transfer Kinetics of Lithium‐Rich Layered Oxide Cathodes in Halide All‐Solid‐State Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":111,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Canadian Light Source (Canada); Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Ningbo University of Technology","keywords":"Materials science; Electrolyte; Cathode; Kinetics; Lithium (medication); Chemical engineering; Oxide; Electrode; Electron transfer; Redox; Coating; Fast ion conductor; Nanotechnology; Physical chemistry","score_opus":0.02118541034670297,"score_gpt":0.26506148885169867,"score_spread":0.2438760785049957,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310640604","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9935434,0.00011482581,0.003220887,0.000040865507,0.0014377696,0.0005337756,0.0005352529,0.00023511036,0.0003381202],"genre_scores_gemma":[0.9906671,0.00011438886,0.008207513,0.00017932054,0.000054388853,0.00036961792,0.00010525321,0.00014160505,0.00016078919],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99728346,0.0001837927,0.0011596458,0.00037221314,0.00039549443,0.00060538016],"domain_scores_gemma":[0.9991951,0.00010376097,0.00013010831,0.00045934386,0.00005566601,0.000056034056],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00049056817,0.00037552748,0.0007234395,0.00019204916,0.00006437267,0.00004688197,0.00035776736,0.00005643715,0.0012456292],"category_scores_gemma":[0.00006172692,0.00043234896,0.000035863286,0.00021199396,0.00005246254,0.00034436298,0.00020407839,0.00013262771,0.000021059772],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008796569,0.00005247853,0.00020314503,0.00031763234,0.000030656454,0.000026797932,0.00061764056,0.11714435,0.8811326,0.000120356875,0.000052758358,0.00021364071],"study_design_scores_gemma":[0.0007817473,0.000086882916,0.0009797687,0.00008093993,0.000016326027,0.000013311273,0.0001639712,0.000045520806,0.99455696,0.0008405698,0.0020048965,0.00042910397],"about_ca_topic_score_codex":0.000030710205,"about_ca_topic_score_gemma":0.000009273333,"teacher_disagreement_score":0.11709883,"about_ca_system_score_codex":0.00022822301,"about_ca_system_score_gemma":0.000010645876,"threshold_uncertainty_score":0.99981284},"labels":[],"label_agreement":null},{"id":"W4310701526","doi":"10.1002/adma.202208470","title":"Single Zinc Atom Aggregates: Synergetic Interaction to Boost Fast Polysulfide Conversion in Lithium‐Sulfur Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Guangdong Science and Technology Department; Natural Science Foundation of Hebei Province; Natural Science Foundation of Guangdong Province","keywords":"Polysulfide; Sulfur; Materials science; Electrolyte; Lithium (medication); Chemical engineering; Carbon fibers; Redox; Carbon nanotube; Lithium–sulfur battery; Nanotechnology; Electrode; Chemistry; Physical chemistry; Composite number; Metallurgy; Composite material","score_opus":0.00879838275136895,"score_gpt":0.21750043497833774,"score_spread":0.20870205222696878,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310701526","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9938288,0.0001905672,0.0008783547,0.00025812144,0.003135489,0.00040349588,0.00018916641,0.0008439265,0.0002721273],"genre_scores_gemma":[0.99696183,0.00010291569,0.0019993167,0.00021635226,0.00006696754,0.0003375884,0.000068511166,0.00008376461,0.00016274206],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99827325,0.000066674154,0.0005423941,0.00038916187,0.00023795666,0.00049058365],"domain_scores_gemma":[0.9993364,0.00006516862,0.0001125764,0.000384341,0.000037047466,0.00006446446],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001827131,0.00031563596,0.0004490611,0.00029443757,0.00014892203,0.00009202666,0.00030091812,0.00007303642,0.0009011517],"category_scores_gemma":[0.00006289829,0.00034259996,0.000039219598,0.0003084175,0.00004558428,0.0005011042,0.00036957464,0.00015043766,0.000094757655],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012175948,0.000045823315,0.00003709058,0.00009952595,0.000012225615,0.000042333206,0.00021916213,0.017838763,0.9779197,0.00013280324,0.00039959708,0.0031311945],"study_design_scores_gemma":[0.0004097633,0.00020190616,0.00017039083,0.000102408805,0.0000072888056,0.000026815911,0.0009952135,0.00002663578,0.9140466,0.0005009311,0.083135985,0.00037605548],"about_ca_topic_score_codex":0.000034854933,"about_ca_topic_score_gemma":0.00001902627,"teacher_disagreement_score":0.08273639,"about_ca_system_score_codex":0.00047463464,"about_ca_system_score_gemma":0.0000120073255,"threshold_uncertainty_score":0.9999026},"labels":[],"label_agreement":null},{"id":"W4310939729","doi":"10.1002/adma.202207353","title":"Space‐Charge Control of Magnetism in Ferromagnetic Metals: Coupling Giant Magnitude and Robust Endurance","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Key Research and Development Program of China; Canada First Research Excellence Fund; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Magnetism; Ferromagnetism; Materials science; Spintronics; Condensed matter physics; Curie temperature; Magnetization; Physics; Magnetic field","score_opus":0.011962178346919566,"score_gpt":0.23297829455744795,"score_spread":0.22101611621052838,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310939729","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99339193,0.0026765417,0.000222282,0.00022258391,0.0016818088,0.0008860142,0.00065265025,0.00007531483,0.00019088716],"genre_scores_gemma":[0.99480724,0.0004686123,0.0039149863,0.00009186775,0.000051388004,0.00030532476,0.000022079903,0.00005390092,0.00028457097],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971153,0.000245961,0.00097158534,0.00060631987,0.0004903722,0.00057042396],"domain_scores_gemma":[0.99876255,0.00014437649,0.00048504636,0.00040874459,0.00009283699,0.00010641836],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0016636744,0.0003237764,0.0008870563,0.00018688335,0.00019984297,0.00008175201,0.0003491851,0.00010004742,0.0070661195],"category_scores_gemma":[0.00016136837,0.00030576624,0.00005196753,0.00019031987,0.00015934212,0.000249617,0.00029597743,0.00014023259,0.00004263357],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031519515,0.00010977596,0.000023423081,0.00017088644,0.000011008506,0.000054938664,0.00020094696,0.022891248,0.97475904,0.0013480448,0.000025123205,0.00009034052],"study_design_scores_gemma":[0.0037139074,0.00032936886,0.0017394783,0.00011266973,0.00006104365,0.00006329226,0.00024023083,0.001844984,0.9898943,0.00069629215,0.00082546426,0.00047899585],"about_ca_topic_score_codex":0.00018038417,"about_ca_topic_score_gemma":0.000014556194,"teacher_disagreement_score":0.021046264,"about_ca_system_score_codex":0.00008086151,"about_ca_system_score_gemma":0.000059298192,"threshold_uncertainty_score":0.99993944},"labels":[],"label_agreement":null},{"id":"W4310942086","doi":"10.1002/adma.202209100","title":"Observation of Multi‐Directional Energy Transfer in a Hybrid Plasmonic–Excitonic Nanostructure","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"H2020 Marie Skłodowska-Curie Actions; Deutsche Akademie der Naturforscher Leopoldina - Nationale Akademie der Wissenschaften; Horizon 2020 Framework Programme; Max-Planck-Gesellschaft; Deutsche Forschungsgemeinschaft; Narodowym Centrum Nauki; Natural Sciences and Engineering Research Council of Canada; European Commission; H2020 Future and Emerging Technologies; Alexander von Humboldt-Stiftung","keywords":"Materials science; Femtosecond; Plasmon; Exciton; Phonon; Heterojunction; Thermalisation; Optoelectronics; Excited state; Femtochemistry; Semiconductor; Condensed matter physics; Physics; Laser; Atomic physics; Optics","score_opus":0.014147701759639112,"score_gpt":0.22558693822505463,"score_spread":0.21143923646541551,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310942086","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99877524,0.00009172594,0.00014603327,0.000101939244,0.0003861779,0.0001373708,0.00028300533,0.000035870708,0.000042612515],"genre_scores_gemma":[0.99761677,0.000026570282,0.0018156391,0.000085299966,0.000022093725,0.00027221668,0.0000313046,0.000013240272,0.00011688003],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99884117,0.000101554346,0.00038207672,0.00024659195,0.00023471388,0.00019391326],"domain_scores_gemma":[0.99962044,0.000054215274,0.000079235004,0.00017453398,0.00004182822,0.000029768153],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00024934477,0.00010417848,0.00021969562,0.0000551601,0.00013613062,0.000017950399,0.00017346496,0.00002139888,0.0015926838],"category_scores_gemma":[0.000023203576,0.00010082307,0.00003838025,0.00015228293,0.000036473342,0.00013842249,0.000048611106,0.000036322912,0.000005943838],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000077172954,0.00009851021,0.000073767405,0.00000977231,0.0000025078782,0.0000015927432,0.00006354564,0.0016864853,0.9930178,0.0038556622,0.0000312666,0.001081899],"study_design_scores_gemma":[0.0004934572,0.00003779296,0.0020284364,0.000009882608,0.0000057090165,0.000006397818,0.000053328436,0.00005463475,0.9912592,0.00075184065,0.0051868586,0.00011242299],"about_ca_topic_score_codex":0.00016723764,"about_ca_topic_score_gemma":0.000043732423,"teacher_disagreement_score":0.0051555918,"about_ca_system_score_codex":0.00007233255,"about_ca_system_score_gemma":0.000051317536,"threshold_uncertainty_score":0.99932},"labels":[],"label_agreement":null},{"id":"W4310944282","doi":"10.1002/adma.202209495","title":"Inverted and Amplified CP‐EL Behavior Promoted by AIE‐Active Chiral Co‐Assembled Helical Nanofibers","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Synthesis and Properties of Aromatic Compounds","field":"Chemistry","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"National Natural Science Foundation of China","keywords":"Materials science; Electroluminescence; Circular polarization; OLED; Nanofiber; Circular dichroism; Enantiomer; Active layer; Diode; Luminescence; Optically active; Optoelectronics; Brightness; Annealing (glass); Layer (electronics); Crystallography; Nanotechnology; Optics; Stereochemistry; Organic chemistry; Physics; Chemistry; Composite material","score_opus":0.012322514869655438,"score_gpt":0.2522306918952853,"score_spread":0.23990817702562986,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310944282","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948815,0.00012209608,0.000008074217,0.00016139218,0.00023842034,0.00030970442,0.00040411332,0.00017644024,0.0036982452],"genre_scores_gemma":[0.99725664,0.000027323349,0.00058040174,0.00018073742,0.00005201639,0.0006477746,0.00022074209,0.00005737417,0.0009769817],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982527,0.00009395787,0.00043740796,0.0004624052,0.00037917873,0.00037435695],"domain_scores_gemma":[0.99913794,0.00010088219,0.00020435489,0.00038661534,0.000047157057,0.00012305599],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020241685,0.00027624692,0.00047242103,0.000040595787,0.00037117323,0.00008237757,0.0002728449,0.0000838727,0.0042497017],"category_scores_gemma":[0.00007148158,0.00026103525,0.000056387973,0.00007546214,0.00006900645,0.00016323588,0.00023282053,0.00012330445,0.000019588631],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00048889074,0.00017267701,0.00006568289,0.000070169524,0.000050554416,0.000010084113,0.00028972427,0.000001357955,0.9919452,0.000040885927,0.00096785725,0.00589692],"study_design_scores_gemma":[0.0012353888,0.00011541942,0.00024424022,0.0000327818,0.00005348516,0.00003796128,0.00047655392,0.000009409161,0.98452914,0.0004710267,0.012435689,0.0003589238],"about_ca_topic_score_codex":0.00008137358,"about_ca_topic_score_gemma":0.0000031932932,"teacher_disagreement_score":0.011467831,"about_ca_system_score_codex":0.00014519521,"about_ca_system_score_gemma":0.000047484413,"threshold_uncertainty_score":0.9999842},"labels":[],"label_agreement":null},{"id":"W4311116426","doi":"10.1002/adma.202209486","title":"A Universal Perovskite Nanocrystal Ink for High‐Performance Optoelectronic Devices","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":63,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Ministry of Science and ICT, South Korea; Engineering and Physical Sciences Research Council; National Research Foundation of Korea; Korea Basic Science Institute; National Research Foundation","keywords":"Materials science; Perovskite (structure); Nanocrystal; Electroluminescence; Optoelectronics; Photovoltaics; Light-emitting diode; Diode; Energy conversion efficiency; Nanotechnology; Quantum efficiency; Quantum dot; Inkwell; Photovoltaic system; Electrical engineering; Layer (electronics)","score_opus":0.004196220928141135,"score_gpt":0.19596461050483743,"score_spread":0.19176838957669629,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4311116426","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964328,0.0001402814,0.0010657014,0.000059670492,0.0006828759,0.00046018677,0.000556743,0.00035378817,0.00024794313],"genre_scores_gemma":[0.9964464,0.00008589423,0.0019537804,0.00006066392,0.00012885644,0.00088046497,0.00021609094,0.000057186586,0.00017070881],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990268,0.00002008697,0.00024193486,0.00020934318,0.00013635814,0.00036552502],"domain_scores_gemma":[0.9996185,0.000029004323,0.000056844743,0.00021813209,0.000034924666,0.000042614076],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015999362,0.0001685035,0.0002258077,0.00005909951,0.00028688106,0.000051001552,0.00023389306,0.00003163032,0.0005541539],"category_scores_gemma":[0.0000056593785,0.00018476527,0.000028352008,0.00012324943,0.000020264608,0.00022622154,0.000085107895,0.00005483147,0.000018699217],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052385716,0.00001498905,0.000003710523,0.00009184088,0.000018662207,6.4831204e-7,0.000053785137,0.01712496,0.9779386,0.0028781479,0.00028305486,0.0015392099],"study_design_scores_gemma":[0.00081605854,0.00018157455,0.0003656042,0.000012902469,0.000022715183,0.000010264405,0.00008017306,0.00052030204,0.88093936,0.0006185477,0.11609258,0.00033991592],"about_ca_topic_score_codex":0.000009217917,"about_ca_topic_score_gemma":0.000004683755,"teacher_disagreement_score":0.11580952,"about_ca_system_score_codex":0.00020115708,"about_ca_system_score_gemma":0.00003147724,"threshold_uncertainty_score":0.75345093},"labels":[],"label_agreement":null},{"id":"W4311589579","doi":"10.1002/adma.202209327","title":"Direct CO<sub>2</sub> Capture by Alkali‐Dissolved Cellulose and Sequestration in Building Materials and Artificial Reef Structures","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Sequestration and Geologic Interactions","field":"Environmental Science","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Université de Sherbrooke","funders":"Canada Foundation for Innovation","keywords":"Cellulose; Materials science; Absorption of water; Chemical engineering; Cellulose fiber; Absorption (acoustics); Fiber; Composite material","score_opus":0.008329694468410297,"score_gpt":0.24560653989324255,"score_spread":0.23727684542483224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4311589579","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981855,0.00004011649,0.000051659194,0.00026578482,0.00039945892,0.0003337597,0.000211438,0.000048470374,0.00046378415],"genre_scores_gemma":[0.9989598,0.0000473177,0.00041281473,0.00020373751,0.000034151468,0.000095010015,0.0001438614,0.000012979651,0.00009031819],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99868333,0.0002047137,0.00033029055,0.0003701103,0.000191583,0.00021994114],"domain_scores_gemma":[0.9996156,0.000046835026,0.00014811802,0.00012674826,0.000007686784,0.000055019085],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00036646193,0.00016084316,0.00021064689,0.000042204807,0.00022815214,0.00010612639,0.000076808006,0.000059678572,0.0022506758],"category_scores_gemma":[0.000058523772,0.00016095144,0.000012594805,0.000088482804,0.00009939259,0.00031532504,0.0001199297,0.00008562256,0.000009169342],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000096461365,0.000023325883,0.00014998532,0.000007796093,0.0000032648747,0.000011232144,0.00025643467,0.00024415104,0.9975553,0.0006438659,0.00039834902,0.000609803],"study_design_scores_gemma":[0.00020665258,0.000064028056,0.0041168258,0.0000060554107,0.0000073117,0.000023275083,0.00018604904,0.0000113959395,0.98890656,0.004361921,0.0019272307,0.00018269972],"about_ca_topic_score_codex":0.00033648725,"about_ca_topic_score_gemma":0.00016554976,"teacher_disagreement_score":0.0086487755,"about_ca_system_score_codex":0.00013252547,"about_ca_system_score_gemma":0.000010172596,"threshold_uncertainty_score":0.9986614},"labels":[],"label_agreement":null},{"id":"W4311884485","doi":"10.1002/adma.202209644","title":"Engineering the Electronic Structure of Single‐Atom Iron Sites with Boosted Oxygen Bifunctional Activity for Zinc–Air Batteries","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":243,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Bifunctional; Overpotential; Materials science; Oxygen evolution; Catalysis; Electrolyte; Battery (electricity); Zinc; Bifunctional catalyst; Metal; Mesoporous material; Chemical engineering; Inorganic chemistry; Electrode; Chemistry; Physical chemistry; Electrochemistry; Organic chemistry; Metallurgy","score_opus":0.004858045077262847,"score_gpt":0.18993401844862937,"score_spread":0.18507597337136653,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4311884485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981932,0.00006813163,0.000790017,0.00020260883,0.00025932994,0.0002631027,0.00008258368,0.000100384204,0.00004065352],"genre_scores_gemma":[0.99872655,0.000004309632,0.00049931783,0.00009933988,0.00008438534,0.00011808288,0.0002407102,0.000057322974,0.00016999447],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99874324,0.00006135614,0.00019547863,0.00027909965,0.0003477771,0.00037307263],"domain_scores_gemma":[0.99923855,0.00013760176,0.00019537336,0.00030318947,0.00009828807,0.00002701282],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014991133,0.00020492366,0.00026534632,0.00007465812,0.00023399263,0.00001700903,0.00021758463,0.00004391219,0.0004367895],"category_scores_gemma":[0.00004357162,0.00015692756,0.000051566993,0.00016951945,0.000042246244,0.00021611642,0.0001052625,0.00009614716,0.0000014531751],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00086953305,0.000026339025,0.000008866726,0.00005710175,0.00007250231,8.035857e-7,0.00005971,0.049903933,0.94132525,0.007251928,0.000050289495,0.00037376583],"study_design_scores_gemma":[0.0006490923,0.0004977799,0.00035303985,0.000008873005,0.00004670745,0.000020221487,0.000043005522,0.000045027882,0.96795934,0.00082706613,0.029362936,0.00018690585],"about_ca_topic_score_codex":0.000085687236,"about_ca_topic_score_gemma":0.00019317356,"teacher_disagreement_score":0.049858905,"about_ca_system_score_codex":0.00036779093,"about_ca_system_score_gemma":0.00008270679,"threshold_uncertainty_score":0.63993204},"labels":[],"label_agreement":null},{"id":"W4312095485","doi":"10.1002/adma.202207665","title":"Tuning of Polar Domain Boundaries in Nonpolar Perovskite","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ferroelectric and Piezoelectric Materials","field":"Materials Science","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"Higher Education Discipline Innovation Project; Akademie Věd České Republiky; National Natural Science Foundation of China; Ministry of Education, Culture, Sports, Science and Technology","keywords":"Polar; Materials science; Polarity (international relations); Domain (mathematical analysis); Perovskite (structure); Electric field; Antiferroelectricity; Boundary (topology); Chemical physics; Condensed matter physics; Ferroelectricity; Crystallography; Optoelectronics; Physics; Dielectric","score_opus":0.00687802622253858,"score_gpt":0.23058960024588446,"score_spread":0.22371157402334588,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4312095485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99544597,0.0006977528,0.000532658,0.000117718955,0.0014651273,0.00040544072,0.00038464458,0.000090406975,0.0008602988],"genre_scores_gemma":[0.9951632,0.000030286872,0.0040812558,0.00016431628,0.000071314586,0.00015893008,0.000043738004,0.000040948886,0.00024598025],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99704593,0.00050918944,0.0008666179,0.00044519463,0.0005207938,0.00061226357],"domain_scores_gemma":[0.99892384,0.000106887244,0.0004227386,0.0004115231,0.00006956815,0.000065436565],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0022444965,0.00024052069,0.0006744955,0.0002447581,0.0004203919,0.00012893931,0.0004929193,0.000060640057,0.0074609355],"category_scores_gemma":[0.00021212417,0.00025123902,0.00005394802,0.000474477,0.000164086,0.00032070652,0.00027785933,0.00012013089,0.00005204086],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038497252,0.000074566946,0.00012596257,0.00006711097,0.000006105439,0.000025008494,0.0009346297,0.000103367616,0.9905637,0.0072585815,0.00017487569,0.00028115662],"study_design_scores_gemma":[0.0009257465,0.00033521713,0.00033004212,0.000022394463,0.0000075754647,0.00003731469,0.00034581177,0.0000064552605,0.9609631,0.010000674,0.02670889,0.00031679665],"about_ca_topic_score_codex":0.0005270331,"about_ca_topic_score_gemma":0.000022659151,"teacher_disagreement_score":0.02960058,"about_ca_system_score_codex":0.00021835523,"about_ca_system_score_gemma":0.00023077664,"threshold_uncertainty_score":0.999994},"labels":[],"label_agreement":null},{"id":"W4312129891","doi":"10.1002/adma.202211159","title":"Electron Conductive and Transparent Hydrogels for Recording Brain Neural Signals and Neuromodulation","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Neuroscience and Neural Engineering","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"MacEwan University","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Optogenetics; Neuromodulation; Materials science; SIGNAL (programming language); Neuroscience; Neural activity; Nanotechnology; Self-healing hydrogels; Decoding methods; Optical transparency; Transparency (behavior); Electrode; Biomedical engineering; Computer science; Optoelectronics; Chemistry; Biology; Medicine; Central nervous system","score_opus":0.04715014041614677,"score_gpt":0.29545505206980704,"score_spread":0.24830491165366028,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4312129891","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99765354,0.000034209137,0.00027342525,0.0007748517,0.0005387869,0.00055994873,0.00007659823,0.000078075784,0.000010586108],"genre_scores_gemma":[0.99862695,0.00003556791,0.00012774949,0.0009046525,0.000027006567,0.00019515124,0.0000035524008,0.000024432356,0.000054931876],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987617,0.00010112879,0.00020041615,0.00047719025,0.0001694215,0.00029014956],"domain_scores_gemma":[0.99948466,0.00026654694,0.000083815816,0.00009681,0.000010890275,0.00005726397],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020457013,0.00013963986,0.00019277177,0.000071659604,0.00035099822,0.00006164806,0.00009740783,0.000015160822,0.00001730852],"category_scores_gemma":[0.00025664645,0.00014351247,0.000021279768,0.00013064597,0.000048229347,0.00048595705,0.00006290813,0.000072591625,3.4269456e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009042686,0.000010015077,0.0000029968253,0.000019506184,7.0241833e-7,0.000005684009,0.000075561846,0.0024621629,0.9949824,0.00062551256,0.000007931345,0.0017170548],"study_design_scores_gemma":[0.00043927928,0.00042712328,0.00008259624,0.0000047441995,0.000005669659,0.00007255627,0.000017089018,0.0022189198,0.99406844,0.0014629818,0.001046964,0.00015365431],"about_ca_topic_score_codex":0.0000025949287,"about_ca_topic_score_gemma":4.2221288e-7,"teacher_disagreement_score":0.0015634005,"about_ca_system_score_codex":0.000027025304,"about_ca_system_score_gemma":0.00000877021,"threshold_uncertainty_score":0.58522683},"labels":[],"label_agreement":null},{"id":"W4313203992","doi":"10.1002/adma.202209300","title":"A Breathable, Passive‐Cooling, Non‐Inflammatory, and Biodegradable Aerogel Electronic Skin for Wearable Physical‐Electrophysiological‐Chemical Analysis","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":118,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Center for Advancing Translational Sciences; National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Institute of General Medical Sciences; Natural Sciences and Engineering Research Council of Canada; National Institutes of Health","keywords":"Materials science; Aerogel; Biomedical engineering; Nanotechnology; Biocompatible material; Skin patch","score_opus":0.004648680665295643,"score_gpt":0.20871171082116138,"score_spread":0.20406303015586574,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313203992","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945289,0.00025773572,0.003856437,0.000014237591,0.00021763271,0.00039060702,0.00020782663,0.00042149617,0.00010513656],"genre_scores_gemma":[0.9947159,0.0002076721,0.00352791,0.000051196446,0.00017978076,0.0008682414,0.00015884038,0.000087496366,0.00020291784],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99786615,0.00006549264,0.00041352908,0.00054539676,0.0002209534,0.0008884886],"domain_scores_gemma":[0.99919856,0.00013566365,0.00013083013,0.00035540364,0.00006310814,0.000116428375],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019591216,0.00038451186,0.00082370854,0.00014385788,0.0003116829,0.00008101632,0.0002410031,0.00007821051,0.00015970669],"category_scores_gemma":[0.000058527057,0.00037295758,0.00015285562,0.00041564458,0.00006043927,0.00020177533,0.000116272975,0.00015158669,0.000007978721],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021757167,0.00003762964,0.0000025223762,0.000073979725,0.00022556858,0.000004202794,0.000042161937,0.12867948,0.869419,0.00045174168,0.00007605332,0.0007701405],"study_design_scores_gemma":[0.00077804306,0.00024980458,0.00006894196,0.0000125299075,0.00024615013,0.000012253779,0.000044017776,0.0059608244,0.98349327,0.0042215767,0.0043983995,0.0005141713],"about_ca_topic_score_codex":0.000023683237,"about_ca_topic_score_gemma":0.000003655669,"teacher_disagreement_score":0.122718655,"about_ca_system_score_codex":0.0002132584,"about_ca_system_score_gemma":0.000029248307,"threshold_uncertainty_score":0.9998722},"labels":[],"label_agreement":null},{"id":"W4313340367","doi":"10.1002/adma.202209567","title":"Coordination Polymer Electrocatalysts Enable Efficient CO‐to‐Acetate Conversion","year":2022,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of New Brunswick; University of Toronto","funders":"Argonne National Laboratory; Australian Research Council; Natural Sciences and Engineering Research Council of Canada; Office of Science; U.S. Department of Energy; Australian Government; Canadian Light Source; Ministry of Science and Technology; University of Toronto","keywords":"Faraday efficiency; Materials science; Electrosynthesis; Catalysis; Chemical engineering; Inorganic chemistry; Electrochemical reduction of carbon dioxide; Electrode; Carbon monoxide; Electrochemistry; Organic chemistry; Chemistry","score_opus":0.0063912052308251035,"score_gpt":0.24573431422520056,"score_spread":0.23934310899437547,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313340367","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939115,0.00015315038,0.0004350172,0.00045708028,0.0009595405,0.000417867,0.00005486914,0.00038581248,0.0032251508],"genre_scores_gemma":[0.99300724,0.000012820823,0.00018089383,0.00032079034,0.00007399117,0.00033720164,0.0002608297,0.000036861537,0.0057693757],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99857414,0.00009276872,0.00028671557,0.0003509423,0.00036772483,0.00032773873],"domain_scores_gemma":[0.9993636,0.000017818707,0.00013665194,0.00032117474,0.00007757676,0.0000831667],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00033677692,0.00015694878,0.00023263262,0.0001692426,0.0003187288,0.00003689135,0.00019698421,0.00003312849,0.0031652667],"category_scores_gemma":[0.00002445307,0.00016760263,0.0000520487,0.0003346485,0.000019730374,0.00009690084,0.00014965927,0.00006959649,0.00022400022],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014642609,0.00005441835,0.0000014083641,0.000015454822,0.000013282371,0.000005210228,0.00010323662,0.002908064,0.98793143,0.0034861236,0.0027143985,0.0026205357],"study_design_scores_gemma":[0.0003687644,0.00013642224,0.000008191698,0.0000052695964,0.000012575024,0.000022560263,0.00012103702,0.000024161776,0.86034054,0.0002910249,0.13849019,0.00017924662],"about_ca_topic_score_codex":0.00032391096,"about_ca_topic_score_gemma":0.000003853602,"teacher_disagreement_score":0.13577579,"about_ca_system_score_codex":0.0003275206,"about_ca_system_score_gemma":0.0000372586,"threshold_uncertainty_score":0.997746},"labels":[],"label_agreement":null},{"id":"W4313546183","doi":"10.1002/adma.202208423","title":"Nanocomposite Engineering of a High‐Capacity Partially Ordered Cathode for Li‐Ion Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Natural Resources Canada","funders":"Natural Sciences and Engineering Research Council of Canada; Ministry of Science and ICT, South Korea; Korea Institute of Science and Technology Information; Korea Institute of Science and Technology; Ministry of Trade, Industry and Energy; Pohang University of Science and Technology; Korea Institute of Energy Technology Evaluation and Planning; Ulsan National Institute of Science and Technology; National Research Foundation; National Research Foundation of Korea; McGill University","keywords":"Materials science; Nanocomposite; Cathode; Ion; Nanotechnology; Chemical engineering; Composite material; Organic chemistry; Electrical engineering","score_opus":0.016717981250507934,"score_gpt":0.242679193765507,"score_spread":0.22596121251499907,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313546183","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9645753,0.000029418628,0.030226031,0.000048828235,0.0027733122,0.0007185333,0.00069265853,0.00091429974,0.000021607908],"genre_scores_gemma":[0.96408814,0.00007515232,0.034699354,0.00003580513,0.00021193924,0.00055665534,0.00014883054,0.00012709129,0.00005701931],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99828476,0.000033245637,0.0006781299,0.0002876762,0.0002018961,0.0005143004],"domain_scores_gemma":[0.99922,0.00015452043,0.00013241134,0.00033719864,0.000098910205,0.000056922032],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00036234368,0.00031224213,0.0005977601,0.00014849039,0.00006181632,0.000047828285,0.0002354903,0.000099238714,0.00012363153],"category_scores_gemma":[0.00013961624,0.00033517744,0.000040524388,0.00020521176,0.000042628842,0.00037367793,0.00008955956,0.00004233645,0.000054496584],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000080203485,0.000011758802,0.000005700387,0.0006571646,0.000039981216,0.0000022559896,0.00014380188,0.08861904,0.9091591,0.00055359036,0.00024244057,0.00048496103],"study_design_scores_gemma":[0.0007097089,0.000075708405,0.00046509362,0.00014308366,0.000024424326,0.0000033121987,0.0000151436525,0.0002585042,0.99316084,0.0014775922,0.0033296086,0.00033698106],"about_ca_topic_score_codex":0.000009426648,"about_ca_topic_score_gemma":0.0000036648437,"teacher_disagreement_score":0.08836053,"about_ca_system_score_codex":0.00007431318,"about_ca_system_score_gemma":0.000011470114,"threshold_uncertainty_score":0.99991},"labels":[],"label_agreement":null},{"id":"W4313621203","doi":"10.1002/adma.202209851","title":"All‐Optical Switching Based on Sub‐Bandgap Photoactivation of Charge Trapping in Metal Halide Perovskites","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Fundamental Research Funds for the Central Universities; Vetenskapsrådet; National Natural Science Foundation of China; State Key Laboratory of Analytical Chemistry for Life Science; Swedish Foundation for International Cooperation in Research and Higher Education","keywords":"Materials science; Halide; Trapping; Band gap; Metal; Optoelectronics; Charge (physics); Photochemistry; Nanotechnology; Inorganic chemistry","score_opus":0.016061411423513496,"score_gpt":0.2489046971352548,"score_spread":0.2328432857117413,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313621203","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977636,0.0000095785335,0.00073919084,0.00011162265,0.00025324847,0.00028121617,0.000079751844,0.0002923022,0.00046952043],"genre_scores_gemma":[0.99897563,0.00003414439,0.00052782125,0.000059327915,0.00005096394,0.00018596968,0.00011464571,0.000043222248,0.00000829681],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989096,0.000027568647,0.00041240943,0.00020085336,0.00017399534,0.00027559142],"domain_scores_gemma":[0.9995447,0.0001227206,0.00006139311,0.00020745839,0.00002256218,0.000041198604],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000343753,0.0001688192,0.00032026746,0.0001906286,0.000032759857,0.000034230256,0.00010524155,0.00006952053,0.000104110426],"category_scores_gemma":[0.00007866022,0.00016746955,0.00004079288,0.00025347935,0.0000144214655,0.00016735388,0.000016984608,0.000057370868,0.000056094756],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027952346,0.000027441762,0.000007677235,0.000109300105,0.0000103382,0.0000028099032,0.00007141423,0.015013726,0.9831871,0.0006244504,0.000019408893,0.0008984244],"study_design_scores_gemma":[0.00047633506,0.000022185352,0.0019237606,0.00010109657,0.0000088113975,5.644604e-7,0.000019665382,0.004403135,0.9921884,0.00034492448,0.0003458073,0.00016531679],"about_ca_topic_score_codex":0.000014749157,"about_ca_topic_score_gemma":0.0000054712614,"teacher_disagreement_score":0.010610592,"about_ca_system_score_codex":0.00005518942,"about_ca_system_score_gemma":0.0000108317845,"threshold_uncertainty_score":0.68292105},"labels":[],"label_agreement":null},{"id":"W4315750238","doi":"10.1002/adma.202211648","title":"Precisely Controllable Artificial Muscle with Continuous Morphing based on “Breathing” of Supramolecular Columns","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Tsinghua University; National Natural Science Foundation of China","keywords":"Morphing; Artificial muscle; Materials science; Supramolecular chemistry; Liquid crystal; Bending; Polymer; Soft robotics; Flexural rigidity; Phase transition; Pneumatic artificial muscles; Nanotechnology; Composite material; Crystal structure; Computer science; Optoelectronics; Artificial intelligence; Crystallography; Actuator; Thermodynamics; Chemistry","score_opus":0.007194008957626149,"score_gpt":0.20385975569933779,"score_spread":0.19666574674171164,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4315750238","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848974,0.000030842908,0.011437509,0.000031949512,0.0010600229,0.0006755452,0.00036165572,0.0008222718,0.00068283186],"genre_scores_gemma":[0.99299586,0.000036869034,0.0064483862,0.000060788152,0.00008546691,0.00014216853,0.000066956745,0.00011156492,0.000051962692],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99847,0.000041741594,0.00044473016,0.00028376852,0.0003061262,0.00045363308],"domain_scores_gemma":[0.99918866,0.00010124096,0.00012792721,0.0003818158,0.00011951277,0.000080827536],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00035251293,0.0002639878,0.000575303,0.000120098615,0.00007151805,0.00005783958,0.00015360852,0.00009611467,0.00013611543],"category_scores_gemma":[0.000105209605,0.0002467215,0.000046505935,0.0002568033,0.000033100958,0.00016593776,0.000027451006,0.00006461875,0.00012346834],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025735976,0.000022744696,8.3721983e-7,0.00012582114,0.000017146589,0.000035354184,0.000038977534,0.2036216,0.7942176,0.00053101935,0.00009029357,0.0010412651],"study_design_scores_gemma":[0.0011842044,0.00033698388,0.000030966763,0.00018881835,0.00003199714,0.0000028216023,0.0000675529,0.005074724,0.9884086,0.0013278909,0.003049964,0.00029544067],"about_ca_topic_score_codex":0.000010147609,"about_ca_topic_score_gemma":0.0000065275153,"teacher_disagreement_score":0.19854687,"about_ca_system_score_codex":0.000054507724,"about_ca_system_score_gemma":0.000033139753,"threshold_uncertainty_score":0.9999985},"labels":[],"label_agreement":null},{"id":"W4317678901","doi":"10.1002/adma.202209624","title":"Unsaturated, Trialkyl Ionizable Lipids are Versatile Lipid‐Nanoparticle Components for Therapeutic and Vaccine Applications","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":103,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"QLT (Canada)","funders":"","keywords":"Potency; Liposome; Lipid bilayer; Lipid A; Gene silencing; Chemistry; Biochemistry; Pharmacology; Biology; Immunology; Gene; Membrane; In vitro","score_opus":0.0205870075014635,"score_gpt":0.27689261784946156,"score_spread":0.25630561034799804,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4317678901","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975537,0.00029110123,0.0006916817,0.0003246973,0.0003471678,0.0005799729,0.00014511094,0.000045415316,0.000021152206],"genre_scores_gemma":[0.99696773,0.00068475225,0.00030794495,0.0002752152,0.00030271892,0.00040204477,0.00038913987,0.000023099066,0.0006473499],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99920964,0.00002924081,0.00019942637,0.00027982614,0.00006250419,0.00021935532],"domain_scores_gemma":[0.9995018,0.000023271657,0.00008992864,0.00023349312,0.00010309871,0.00004840318],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014891145,0.00012066739,0.0001710158,0.00003213213,0.00011088095,0.00004144046,0.00010613415,0.00007459917,0.000026751732],"category_scores_gemma":[0.000032230153,0.0001106066,0.00003186012,0.00009492211,0.000020847312,0.000010079906,0.000060543425,0.00001934524,0.000047287984],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00036307826,0.000022769995,0.00007515521,0.000029147037,0.00003221786,3.2428804e-7,0.000016513342,0.00007196141,0.99541587,0.00004686419,0.0018966123,0.0020295058],"study_design_scores_gemma":[0.0012696803,0.00018702839,0.00095488166,0.000015066921,0.000020724332,0.0000020416987,0.000067225286,0.000038662474,0.92358005,0.00036613387,0.07336189,0.00013663853],"about_ca_topic_score_codex":0.0000072486832,"about_ca_topic_score_gemma":0.000007097548,"teacher_disagreement_score":0.07183582,"about_ca_system_score_codex":0.000008731921,"about_ca_system_score_gemma":0.000016784657,"threshold_uncertainty_score":0.45104063},"labels":[],"label_agreement":null},{"id":"W4317867004","doi":"10.1002/adma.202208800","title":"Origin of the Anomalous Electrical Transport Behavior in Fe‐Intercalated Weyl Semimetal T<sub>d</sub>‐MoTe<sub>2</sub>","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Institute of Solid State Physics, Chinese Academy of Sciences; National Key Research and Development Program of China; University of Waterloo; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Condensed matter physics; Materials science; Semimetal; Fermi level; Phase diagram; Spintronics; Transition metal; Electronic structure; Phase (matter); Phase transition; Magnetoresistance; Electronic band structure; Weyl semimetal; Band gap; Ferromagnetism; Physics; Electron; Magnetic field; Chemistry","score_opus":0.012387668390692124,"score_gpt":0.25872137337973333,"score_spread":0.2463337049890412,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4317867004","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962781,0.00003670474,0.0000633667,0.00013479077,0.0013289566,0.0011954721,0.00057414564,0.00032396812,0.00006446216],"genre_scores_gemma":[0.99862254,0.00015152904,0.0002624475,0.000071273615,0.0001277143,0.0005386575,0.00010431799,0.00008204788,0.00003946228],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965869,0.00020555941,0.0011714782,0.0007169648,0.00051463384,0.00080441777],"domain_scores_gemma":[0.99845904,0.000108848515,0.00040885547,0.0007550552,0.00013926833,0.0001289532],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008650826,0.00040648293,0.0007749034,0.00019509615,0.00017051883,0.000078041056,0.00066614104,0.00022990038,0.00018058823],"category_scores_gemma":[0.00010551756,0.00032514223,0.00015706122,0.0009879153,0.00020752252,0.00030546382,0.00015740986,0.00014463147,0.00043872304],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001479434,0.000170764,0.00026787532,0.000055982313,0.00000902728,0.000028081697,0.00010510148,0.0000738729,0.9974428,0.0004884732,0.000093467876,0.0011166297],"study_design_scores_gemma":[0.0007310103,0.00009853094,0.026239611,0.00009066098,0.00006448851,0.000022819897,0.00001961474,0.000011611504,0.9714651,0.000589055,0.00031148625,0.00035599037],"about_ca_topic_score_codex":0.0000800596,"about_ca_topic_score_gemma":0.00007208137,"teacher_disagreement_score":0.02597766,"about_ca_system_score_codex":0.00014087383,"about_ca_system_score_gemma":0.00015551763,"threshold_uncertainty_score":0.99992007},"labels":[],"label_agreement":null},{"id":"W4318618953","doi":"10.1002/adma.202210057","title":"Strong‐Proton‐Adsorption Co‐Based Electrocatalysts Achieve Active and Stable Neutral Seawater Splitting","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Qatar National Research Fund; National Synchrotron Radiation Research Center; University of Toronto; National Natural Science Foundation of China; Shell; Fonds National de la Recherche Luxembourg; Shell Global Solutions International; Government of Ontario","keywords":"Overpotential; Oxygen evolution; Seawater; Water splitting; Catalysis; Electrolysis; Inorganic chemistry; Adsorption; Materials science; Electrolysis of water; Chemical engineering; Chemistry; Physical chemistry; Electrolyte; Electrode; Electrochemistry; Photocatalysis","score_opus":0.011152130779360028,"score_gpt":0.25866691324002705,"score_spread":0.24751478246066702,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4318618953","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99676204,0.000021325724,0.00013298976,0.00017816407,0.0002606112,0.00049027405,0.000020394524,0.0005958716,0.0015383129],"genre_scores_gemma":[0.9973063,0.00005574115,0.0003221638,0.00011019418,0.00015194502,0.0002627888,0.00093040767,0.00009252277,0.00076795695],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976345,0.0001359677,0.00039233876,0.00062222587,0.0003580551,0.00085695065],"domain_scores_gemma":[0.99902123,0.00009576324,0.00020792845,0.00039987214,0.0001440318,0.00013117872],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00043417478,0.000344778,0.00042047777,0.00023652827,0.00019877625,0.000094427414,0.0001961249,0.00015145155,0.00015468527],"category_scores_gemma":[0.00007649986,0.0003340786,0.00006388819,0.00037643424,0.000067559056,0.000682633,0.00008968678,0.00014092754,0.00027409953],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005822325,0.00002535195,0.000035557103,0.00010031318,0.000050705912,0.000013701567,0.00008653377,0.0020053927,0.99257016,0.00238215,0.00007133447,0.0020765578],"study_design_scores_gemma":[0.0013162632,0.00022940236,0.0002975327,0.00004597496,0.00003693145,0.000008093372,0.00008174258,0.00017952255,0.99117255,0.0015339253,0.0047414163,0.000356642],"about_ca_topic_score_codex":0.00050960184,"about_ca_topic_score_gemma":0.00012945043,"teacher_disagreement_score":0.004670082,"about_ca_system_score_codex":0.00028844012,"about_ca_system_score_gemma":0.00008253331,"threshold_uncertainty_score":0.9999111},"labels":[],"label_agreement":null},{"id":"W4318671704","doi":"10.1002/adma.202210677","title":"Entropy‐Driven Liquid Electrolytes for Lithium Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":175,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"China Postdoctoral Science Foundation; Guangdong Provincial Pearl River Talents Program; Chinese Academy of Sciences; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; National Natural Science Foundation of China","keywords":"Materials science; Electrolyte; Lithium (medication); Chemical engineering; Nanotechnology; Electrode; Physical chemistry","score_opus":0.01101369618047027,"score_gpt":0.253122050213949,"score_spread":0.24210835403347875,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4318671704","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98549694,0.000090774935,0.0054057376,0.00021553141,0.004449127,0.0009347149,0.00055481493,0.002351672,0.0005006619],"genre_scores_gemma":[0.9871451,0.00034026382,0.008850185,0.00029310942,0.00067263085,0.0013031958,0.00034273881,0.00020641388,0.0008463126],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998239,0.000032576016,0.0004961466,0.00032175868,0.0001963204,0.0007142264],"domain_scores_gemma":[0.99925846,0.00014160971,0.00008132069,0.0003785162,0.000074896176,0.00006522364],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024208536,0.0003135589,0.0004661327,0.00012938182,0.00010534587,0.00009192379,0.0002633342,0.000090054535,0.00042450053],"category_scores_gemma":[0.000133661,0.00031949847,0.00004330019,0.0001691765,0.000049372215,0.00041974554,0.000080986225,0.000044513337,0.00048437007],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019796201,0.000007705403,0.00000277692,0.0002267413,0.0000399837,0.0000032821958,0.000074999276,0.0045438707,0.98587763,0.0011925825,0.007469657,0.0003627767],"study_design_scores_gemma":[0.00055558886,0.0001809868,0.000043984073,0.00004724274,0.000017925251,0.0000035810908,0.000027833083,0.0000511708,0.93621194,0.0038954306,0.058623675,0.00034062564],"about_ca_topic_score_codex":0.0000011612126,"about_ca_topic_score_gemma":0.000001165521,"teacher_disagreement_score":0.051154017,"about_ca_system_score_codex":0.00009868478,"about_ca_system_score_gemma":0.000013116304,"threshold_uncertainty_score":0.99992573},"labels":[],"label_agreement":null},{"id":"W4319058744","doi":"10.1002/adma.202209685","title":"Versatile Assembly of Metal–Phenolic Network Foams Enabled by Tannin–Cellulose Nanofibers","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Lignin and Wood Chemistry","field":"Engineering","cited_by":83,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"European Research Council; European Commission; Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul; Canada Excellence Research Chairs, Government of Canada; Fundação de Amparo à Pesquisa do Estado de São Paulo; Canada Foundation for Innovation","keywords":"Materials science; Nanofiber; Cellulose; Tannin; Metal; Nanotechnology; Polymer science; Composite material; Chemical engineering; Metallurgy","score_opus":0.006162186668761818,"score_gpt":0.20749107955877474,"score_spread":0.20132889289001293,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4319058744","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906225,0.0004519072,0.0000690732,0.000019639503,0.0011710557,0.00016786158,0.00009841419,0.0006445116,0.006754988],"genre_scores_gemma":[0.9962612,0.00019244385,0.0011812974,0.000028079898,0.00015190933,0.000047128575,0.0001451356,0.00006958403,0.001923244],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988333,0.000019170193,0.00034453277,0.00019227806,0.00018898406,0.00042173924],"domain_scores_gemma":[0.9994639,0.000060231767,0.000077160155,0.00028897758,0.000035849902,0.00007388323],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018447549,0.00020008445,0.0003722749,0.00003166949,0.000032982618,0.0000230581,0.00017664101,0.00014186514,0.00014116689],"category_scores_gemma":[0.000019680081,0.00020479684,0.000054377222,0.00028069693,0.000029679519,0.00013527751,0.000053991527,0.00006136435,0.0001587429],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000008611673,0.000007172795,0.0000033217325,0.00016515331,0.0000650153,0.0000055423784,0.00008381161,0.0025066587,0.93560207,0.000059320337,0.061318703,0.00017459024],"study_design_scores_gemma":[0.0004123032,0.000021087926,0.000010863415,0.00005369935,0.00002648328,0.0000012776452,0.000051694784,0.00006342541,0.9876445,0.0003811526,0.011122412,0.00021107988],"about_ca_topic_score_codex":0.000007860076,"about_ca_topic_score_gemma":4.21034e-7,"teacher_disagreement_score":0.052042425,"about_ca_system_score_codex":0.000048449732,"about_ca_system_score_gemma":0.0000143850075,"threshold_uncertainty_score":0.8351373},"labels":[],"label_agreement":null},{"id":"W4319793610","doi":"10.1002/adma.202370029","title":"Manipulating Charge‐Transfer Kinetics of Lithium‐Rich Layered Oxide Cathodes in Halide All‐Solid‐State Batteries (Adv. Mater. 5/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Extraction and Separation Processes","field":"Engineering","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Canadian Light Source (Canada); Western University","funders":"","keywords":"Materials science; Cathode; Lithium (medication); Oxide; Solid-state; Halide; Electrode; Nanotechnology; Chemical engineering; Conductivity; Kinetics; Reactivity (psychology); Inorganic chemistry; Physical chemistry; Metallurgy; Chemistry","score_opus":0.028672339810218682,"score_gpt":0.29428178468868044,"score_spread":0.2656094448784618,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4319793610","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952199,0.00006836571,0.0020026765,0.00006948651,0.00058964617,0.00022371906,0.00011727333,0.00042617373,0.0012827903],"genre_scores_gemma":[0.9962712,0.00059387047,0.0016500863,0.000072511815,0.000037483685,0.00008626199,0.00009721464,0.000065352244,0.0011259987],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984627,0.000048028,0.0007152824,0.00022154335,0.0001998323,0.00035263467],"domain_scores_gemma":[0.9995137,0.00008331612,0.00006394015,0.00020010874,0.00008665883,0.00005226294],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024156459,0.00022515983,0.0003940032,0.00019008476,0.000028848739,0.00006482245,0.00012842717,0.000083306055,0.00031131628],"category_scores_gemma":[0.00007197075,0.00023631002,0.000030785275,0.00032139715,0.00002724126,0.0003781399,0.000026644704,0.00007546347,0.00015362281],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031931035,0.00001754024,0.00014545671,0.00051602296,0.000017835562,0.000014428398,0.0006086135,0.039807193,0.95836496,0.0001393999,0.00017132185,0.00016531037],"study_design_scores_gemma":[0.00035947008,0.000024929968,0.003048197,0.00011612842,0.000008186801,0.000005289547,0.00016413447,0.00032253942,0.9919898,0.00040109502,0.003316917,0.00024330543],"about_ca_topic_score_codex":0.000027003605,"about_ca_topic_score_gemma":0.000047629273,"teacher_disagreement_score":0.039484654,"about_ca_system_score_codex":0.000042026135,"about_ca_system_score_gemma":0.000009030249,"threshold_uncertainty_score":0.9636443},"labels":[],"label_agreement":null},{"id":"W4319925007","doi":"10.1002/adma.202370042","title":"A Materials Acceleration Platform for Organic Laser Discovery (Adv. Mater. 6/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Various Chemistry Research Topics","field":"Chemistry","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; University of Toronto","funders":"","keywords":"Materials science; Acceleration; Laser; Nanotechnology; Property (philosophy); Organic molecules; Molecule; Optics; Organic chemistry; Physics; Chemistry","score_opus":0.030502278507507863,"score_gpt":0.30504807280445123,"score_spread":0.27454579429694337,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4319925007","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99489886,0.00001523162,0.00012951784,0.00026274324,0.00066069333,0.000425066,0.0018617441,0.00050888985,0.0012372795],"genre_scores_gemma":[0.965035,0.00014314376,0.00083812606,0.00009142225,0.0008333789,0.00076593005,0.0026333218,0.00013975869,0.029519899],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99757874,0.000018076149,0.0006171655,0.0005703016,0.0004226708,0.0007930225],"domain_scores_gemma":[0.9987111,0.0001469177,0.00021714422,0.00064462447,0.00015835362,0.00012185074],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00043741488,0.00034076985,0.00048395092,0.00007160329,0.0002187556,0.0005329668,0.00043129022,0.00024126773,0.0061991513],"category_scores_gemma":[0.0005169423,0.0003282663,0.000073782125,0.00020238524,0.00005562888,0.00084042584,0.00026180877,0.00009022324,0.0005625977],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029061348,0.000034671168,0.00001598376,0.00090778124,0.000048502712,0.000020455258,0.000059783353,0.000022099743,0.9957832,0.00029124183,0.0021598486,0.00036581475],"study_design_scores_gemma":[0.0011519048,0.000032425647,0.00004576101,0.000096577256,0.000022543974,0.0000121208295,0.00010923353,0.000008014307,0.98320246,0.0032666344,0.01168652,0.00036582988],"about_ca_topic_score_codex":0.000021864338,"about_ca_topic_score_gemma":0.000014586099,"teacher_disagreement_score":0.029863816,"about_ca_system_score_codex":0.00021920774,"about_ca_system_score_gemma":0.00011863683,"threshold_uncertainty_score":0.9999169},"labels":[],"label_agreement":null},{"id":"W4321164681","doi":"10.1002/adma.202211041","title":"Nanozymes: Definition, Activity, and Mechanisms","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Nanomaterials in Catalysis","field":"Materials Science","cited_by":581,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Nanomaterials; Nanotechnology; Catalysis; Biochemical engineering; Materials science; Chemistry; Computer science; Combinatorial chemistry; Engineering; Organic chemistry","score_opus":0.021582919950406204,"score_gpt":0.27036818147921743,"score_spread":0.24878526152881122,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4321164681","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99152875,0.000047212616,0.004239686,0.00019879447,0.0018551467,0.0003522675,0.00036154155,0.0010040731,0.00041251504],"genre_scores_gemma":[0.9790489,0.00023259963,0.019789604,0.00014233214,0.00011987119,0.00024024752,0.00007242129,0.00007236322,0.0002816365],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977163,0.00013557565,0.0004332581,0.00068660977,0.00042253316,0.00060571026],"domain_scores_gemma":[0.99874896,0.00020331464,0.00025193044,0.0005510901,0.0001166009,0.0001280898],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0008806003,0.00031480848,0.000525684,0.00019974641,0.00029046286,0.00018711729,0.00028984627,0.00012707729,0.0011622496],"category_scores_gemma":[0.0003630522,0.00029808117,0.000044171844,0.0004119292,0.00015623991,0.0007920342,0.00039047372,0.00004435987,0.0019969444],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008343147,0.000018995293,0.0000022563659,0.00006821599,0.000007651534,0.000023825805,0.00006288795,0.000031073418,0.984581,0.013956606,0.00015153828,0.0010125434],"study_design_scores_gemma":[0.00045089464,0.00006368235,0.0002762928,0.00004141388,0.000022609687,0.000025623054,0.0000642082,0.0000028706063,0.8892767,0.10877265,0.0006838821,0.00031918343],"about_ca_topic_score_codex":0.000021618665,"about_ca_topic_score_gemma":0.000007237746,"teacher_disagreement_score":0.09530429,"about_ca_system_score_codex":0.000072601775,"about_ca_system_score_gemma":0.000040163857,"threshold_uncertainty_score":0.99994713},"labels":[],"label_agreement":null},{"id":"W4321325571","doi":"10.1002/adma.202210715","title":"A Wafer‐Scale Nanoporous 2D Active Pixel Image Sensor Matrix with High Uniformity, High Sensitivity, and Rapid Switching","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; National Research Foundation of Korea; National Research Foundation; Korea Health Industry Development Institute; Compute Canada","keywords":"Nanoporous; Materials science; Active matrix; Wafer; Optoelectronics; Image sensor; Dot pitch; Transistor; Bilayer; Pixel; Molybdenum disulfide; Nanotechnology; Optics; Thin-film transistor; Voltage; Electrical engineering","score_opus":0.0069618892556060465,"score_gpt":0.2504919651624482,"score_spread":0.24353007590684217,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4321325571","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99512535,0.000014345789,0.0007251057,0.00069339765,0.0006634076,0.0008449397,0.0010693675,0.0007040947,0.0001599713],"genre_scores_gemma":[0.9783307,0.00014883908,0.020433448,0.000115170915,0.0002413829,0.000204223,0.00013485891,0.00009559918,0.00029578916],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973098,0.0002032046,0.0005172883,0.0008033838,0.00043011087,0.00073618116],"domain_scores_gemma":[0.9984544,0.00020714154,0.00035166123,0.0006048307,0.00020111221,0.00018088517],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008887755,0.0004319179,0.0007096424,0.0001348997,0.00047729292,0.0003956869,0.00020739615,0.00013337233,0.0004422016],"category_scores_gemma":[0.00007362626,0.0003530218,0.000038394046,0.00031583328,0.00019165798,0.0007964238,0.00039347776,0.000090620495,0.0006425678],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029823958,0.000052419895,0.000008449521,0.00012035011,0.000015180486,0.000056887537,0.00023135189,0.000057395522,0.99646074,0.0017874964,0.00008541959,0.00082606875],"study_design_scores_gemma":[0.001057573,0.00014955878,0.0027398274,0.00008718788,0.0000538488,0.000113803726,0.00033251086,0.000008460316,0.99066097,0.0035591403,0.00074241986,0.0004946755],"about_ca_topic_score_codex":0.00048457403,"about_ca_topic_score_gemma":0.00012069441,"teacher_disagreement_score":0.019708343,"about_ca_system_score_codex":0.000085450345,"about_ca_system_score_gemma":0.000071279865,"threshold_uncertainty_score":0.9998922},"labels":[],"label_agreement":null},{"id":"W4321792323","doi":"10.1002/adma.202370055","title":"Space‐Charge Control of Magnetism in Ferromagnetic Metals: Coupling Giant Magnitude and Robust Endurance (Adv. Mater. 8/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Magnetic Properties of Alloys","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Decoupling (probability); Magnetism; Ferromagnetism; Coupling (piping); Metal; Electron; Condensed matter physics; Doping; Ion; Charge (physics); Chemical physics; Optoelectronics; Composite material; Physics; Metallurgy; Quantum mechanics","score_opus":0.01589342588800726,"score_gpt":0.2359249906137703,"score_spread":0.22003156472576305,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4321792323","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942283,0.0018727081,0.0001644991,0.0005878845,0.0010867259,0.001032547,0.00032158536,0.00024410737,0.00046165494],"genre_scores_gemma":[0.9911944,0.0008686466,0.006082095,0.00011144486,0.00007360647,0.00026060772,0.000019765243,0.00007477808,0.0013146091],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.996554,0.0001538486,0.0010637513,0.0007712555,0.0005625218,0.0008946091],"domain_scores_gemma":[0.9984963,0.00019694408,0.0003756298,0.00061846507,0.00015659966,0.0001560719],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0014839846,0.00043529927,0.0010023161,0.00027510492,0.000099068675,0.00013988648,0.00050595525,0.00015271876,0.0039294655],"category_scores_gemma":[0.0004902033,0.00039843147,0.000057317135,0.0003637958,0.00031450042,0.00048256217,0.00030381753,0.000109006105,0.0006069631],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028676636,0.000052029045,0.000047088994,0.0004499099,0.00000970882,0.00008020995,0.00017425024,0.0041682036,0.9938303,0.00051739643,0.00011282831,0.00027128062],"study_design_scores_gemma":[0.003003243,0.0003888915,0.0102155125,0.00035008052,0.00005190299,0.00003066961,0.00020934055,0.002365855,0.9817056,0.000584237,0.00052997575,0.0005647084],"about_ca_topic_score_codex":0.00024335421,"about_ca_topic_score_gemma":0.00005932643,"teacher_disagreement_score":0.012124744,"about_ca_system_score_codex":0.000057340563,"about_ca_system_score_gemma":0.000059078462,"threshold_uncertainty_score":0.99984676},"labels":[],"label_agreement":null},{"id":"W4327573041","doi":"10.1002/adma.202211174","title":"Efficient Nanoscale Exciton Transport in Non‐Fullerene Organic Solar Cells Enables Reduced Bimolecular Recombination of Free Charges","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Engineering and Physical Sciences Research Council; Natural Sciences and Engineering Research Council of Canada; Swansea University; Llywodraeth Cymru; European Regional Development Fund; UK Research and Innovation","keywords":"Fullerene; Materials science; Organic solar cell; Exciton; Nanoscopic scale; Recombination; Chemical physics; Nanotechnology; Optoelectronics; Polymer; Condensed matter physics; Chemistry; Organic chemistry; Physics","score_opus":0.004212588560032917,"score_gpt":0.1899469952896827,"score_spread":0.18573440672964978,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4327573041","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99812436,0.00012720455,0.00021244521,0.00002467724,0.0008467143,0.00032218394,0.00007402472,0.00018041098,0.000087979635],"genre_scores_gemma":[0.9987005,0.0008378112,0.0001951976,0.0000069706853,0.000028082448,0.00003508288,0.00006507252,0.00007100342,0.00006030643],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878335,0.000023714487,0.00042250185,0.00021772819,0.00018884915,0.00036388583],"domain_scores_gemma":[0.99949175,0.000027177119,0.00006868068,0.00031940764,0.000051049767,0.000041954965],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00031760414,0.00018009671,0.00033201886,0.00018672692,0.00002935587,0.000010642426,0.00019980266,0.0001105369,0.00018706138],"category_scores_gemma":[0.000026790312,0.0001955534,0.000038650298,0.0005240502,0.000015102229,0.00004683019,0.000026952684,0.000075426535,0.00002942971],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015493732,0.000034739704,0.0000065935687,0.00019368331,0.000013045178,0.0000072074076,0.00019245195,0.013551739,0.98577374,0.000035583555,0.00005726832,0.00011844618],"study_design_scores_gemma":[0.00065543165,0.00006542072,0.00041707495,0.00008488814,0.000010364374,9.016107e-7,0.00002434296,0.0007556205,0.9968226,0.00069384166,0.00027043934,0.00019908228],"about_ca_topic_score_codex":0.000028025168,"about_ca_topic_score_gemma":0.000031642125,"teacher_disagreement_score":0.012796119,"about_ca_system_score_codex":0.00009276879,"about_ca_system_score_gemma":0.00003233831,"threshold_uncertainty_score":0.7974436},"labels":[],"label_agreement":null},{"id":"W4327594365","doi":"10.1002/adma.202370074","title":"Direct CO<sub>2</sub> Capture by Alkali‐Dissolved Cellulose and Sequestration in Building Materials and Artificial Reef Structures (Adv. Mater. 11/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Aerogels and thermal insulation","field":"Chemistry","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Université de Sherbrooke","funders":"","keywords":"Cellulose; Materials science; Scanning electron microscope; Alkali metal; Coating; Energy-dispersive X-ray spectroscopy; Chemical engineering; Composite material; Nanotechnology; Organic chemistry; Chemistry","score_opus":0.012367373246846086,"score_gpt":0.2571746605272657,"score_spread":0.2448072872804196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4327594365","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981629,0.0001469012,0.000016310643,0.00006211223,0.00030951187,0.00023105255,0.00072616036,0.00019848514,0.00014655471],"genre_scores_gemma":[0.99839336,0.0002223166,0.00017393888,0.00003350428,0.00017169527,0.000060614453,0.0007955248,0.00005931217,0.00008970878],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982888,0.000076467484,0.0005499693,0.0004924839,0.00020664117,0.0003856272],"domain_scores_gemma":[0.99935645,0.000060657698,0.00024427514,0.00021119733,0.000042571643,0.000084872016],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00033256033,0.00030538187,0.00043502453,0.00007211327,0.000119435404,0.00023290023,0.0000909257,0.00025021393,0.00024063696],"category_scores_gemma":[0.00006970576,0.0002987544,0.000021894697,0.00012094907,0.000077731216,0.00036832623,0.00007397675,0.00007015301,0.000012942423],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001657915,0.000013803216,0.00016307067,0.0002354839,0.000014103329,0.00002687865,0.00019890023,0.00003973716,0.9977659,0.00073781854,0.000075079355,0.0005634518],"study_design_scores_gemma":[0.00044891538,0.000015571033,0.002075147,0.00010675842,0.00002003996,0.000008550399,0.00011820232,0.000020779546,0.9924941,0.004164845,0.00020770555,0.00031936754],"about_ca_topic_score_codex":0.00014475954,"about_ca_topic_score_gemma":0.000039611237,"teacher_disagreement_score":0.005271764,"about_ca_system_score_codex":0.00005888227,"about_ca_system_score_gemma":0.00001740903,"threshold_uncertainty_score":0.9999465},"labels":[],"label_agreement":null},{"id":"W4328052009","doi":"10.1002/adma.202300389","title":"Bifunctional Gas Diffusion Electrode Enables In Situ Separation and Conversion of CO<sub>2</sub> to Ethylene from Dilute Stream","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto; University of New Brunswick; University of Calgary","funders":"Saudi Aramco; Canada First Research Excellence Fund; University of Calgary","keywords":"Materials science; Chemical engineering; Bifunctional; Faraday efficiency; Catalysis; Electrochemistry; Electrode; Organic chemistry; Chemistry","score_opus":0.008241993299954424,"score_gpt":0.2566500714919929,"score_spread":0.2484080781920385,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4328052009","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99875677,0.000044084925,0.00024931724,0.00012917913,0.00024108608,0.0001959266,0.00007550717,0.00018218497,0.00012593679],"genre_scores_gemma":[0.9981092,0.0007835271,0.00026497318,0.00004250515,0.00008006184,0.000057876485,0.0005682009,0.000018450866,0.000075203134],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99903405,0.000051207993,0.00028567264,0.00027114662,0.00018195638,0.00017595217],"domain_scores_gemma":[0.99957585,0.00005100934,0.00010119832,0.0001642377,0.00005856834,0.00004911584],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001600709,0.00012450197,0.00023363717,0.0001721749,0.000047512574,0.000018566716,0.000055823108,0.00008222654,0.000078592624],"category_scores_gemma":[0.000044786455,0.00012330248,0.000024811676,0.00023790366,0.000023250057,0.00016403574,0.000059661023,0.000037416805,0.000042048003],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027016364,0.00002811024,0.00004328256,0.000025810945,0.000008304222,0.0000024608216,0.000100800185,0.00029174951,0.9886838,0.00028770018,0.00041575072,0.009842057],"study_design_scores_gemma":[0.00045007037,0.000109197164,0.0031099312,0.000049275404,0.000009095922,0.0000016647637,0.00007095126,0.000017457658,0.99112153,0.001893184,0.0030447165,0.00012291457],"about_ca_topic_score_codex":0.00045334038,"about_ca_topic_score_gemma":0.000197499,"teacher_disagreement_score":0.009719142,"about_ca_system_score_codex":0.00006978933,"about_ca_system_score_gemma":0.000019793772,"threshold_uncertainty_score":0.5028129},"labels":[],"label_agreement":null},{"id":"W4360813414","doi":"10.1002/adma.202208783","title":"Comment on “Vapor Lubrication for Reducing Water and Ice Adhesion on Poly(dimethylsiloxane) Brushes”: Vapor Alteration Alone Reduces Water Droplet Adhesion","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Adhesion, Friction, and Surface Interactions","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"University of Toronto","keywords":"Materials science; Adhesion; Lubrication; Water vapor; Chemical engineering; Swelling; Composite material; Nanotechnology; Organic chemistry; Chemistry","score_opus":0.018968298650602743,"score_gpt":0.2684879728253402,"score_spread":0.24951967417473747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4360813414","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99195707,0.00006786122,0.0010576341,0.0023745531,0.0027571945,0.00088444166,0.000084294916,0.0006557681,0.00016118318],"genre_scores_gemma":[0.9949055,0.0005182923,0.0016324072,0.00033530663,0.00033135273,0.00035162808,0.0009849374,0.00010210478,0.0008384865],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980505,0.000100945814,0.00059020513,0.0004874328,0.0002727801,0.00049811386],"domain_scores_gemma":[0.99912393,0.00022188078,0.00008164246,0.00034609163,0.00011940516,0.00010706368],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005450963,0.000342453,0.0003723921,0.0002674409,0.00045699973,0.00013308627,0.00010831978,0.000141375,0.00014595335],"category_scores_gemma":[0.00007597046,0.00025363182,0.000067651046,0.000116943476,0.000025327983,0.0004884539,0.00003888443,0.000109521854,0.00030346346],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002693483,0.000054969376,0.000003563161,0.00010986245,0.000029615961,0.000002582994,0.0009107803,0.005447026,0.98486316,0.00008133496,0.0049100365,0.0033177081],"study_design_scores_gemma":[0.0006244977,0.00035712367,0.00017507613,0.00017532289,0.000034067278,0.0000055581245,0.00016288488,0.0012562342,0.9527568,0.00043878573,0.043679707,0.00033392198],"about_ca_topic_score_codex":0.000048618655,"about_ca_topic_score_gemma":0.000004415552,"teacher_disagreement_score":0.03876967,"about_ca_system_score_codex":0.00019258633,"about_ca_system_score_gemma":0.000008912752,"threshold_uncertainty_score":0.9999916},"labels":[],"label_agreement":null},{"id":"W4360953637","doi":"10.1002/adma.202210464","title":"Ablation of Gap Junction Protein Improves the Efficiency of Nanozyme‐Mediated Catalytic/Starvation/Mild‐Temperature Photothermal Therapy","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoplatforms for cancer theranostics","field":"Engineering","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"National Key Research and Development Program of China; Youth Innovation Promotion Association of the Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Glucose oxidase; Glutathione; Reactive oxygen species; Photothermal therapy; Hydrogen peroxide; Biophysics; Radical; Oxidative stress; Intracellular; Materials science; Biochemistry; Chemistry; Nanotechnology; Enzyme; Biology","score_opus":0.010709310196948834,"score_gpt":0.21859717838271822,"score_spread":0.20788786818576938,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4360953637","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974418,0.00019750376,0.00018030852,0.00002373549,0.0008037089,0.0008853018,0.00014249941,0.0002356836,0.00008945441],"genre_scores_gemma":[0.9990755,0.00023436987,0.00017884318,0.000016274906,0.00006890471,0.00011932617,0.00015369555,0.00005247143,0.00010064724],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989293,0.000019366862,0.00044113095,0.00013759965,0.00026004337,0.00021252179],"domain_scores_gemma":[0.9993129,0.000068590954,0.00016795733,0.00028634508,0.00014220494,0.000022042792],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028661254,0.00016902148,0.0002484227,0.00010220775,0.00005425703,0.000018698172,0.00015561246,0.000098394434,0.000052333224],"category_scores_gemma":[0.0000768423,0.00012261113,0.000040086954,0.0005412262,0.000060967224,0.00024830614,0.000016192162,0.00006332868,0.00001732005],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000119117416,0.000013651593,0.000005702238,0.00013844081,0.000033564374,3.807678e-7,0.00036849448,0.0043955473,0.99385077,0.0000967332,0.000064600325,0.0009130298],"study_design_scores_gemma":[0.0007004568,0.00009135157,0.0006683434,0.00006624457,0.000009025126,5.4236295e-7,0.00007027588,0.00035539793,0.9969358,0.00048308988,0.00049036404,0.0001291351],"about_ca_topic_score_codex":0.000024984018,"about_ca_topic_score_gemma":0.0000053061403,"teacher_disagreement_score":0.004040149,"about_ca_system_score_codex":0.00005819062,"about_ca_system_score_gemma":0.000038059054,"threshold_uncertainty_score":0.49999368},"labels":[],"label_agreement":null},{"id":"W4360991491","doi":"10.1002/adma.202211420","title":"Optimizing Lipid Nanoparticles for Delivery in Primates","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":129,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Potency; Messenger RNA; Pharmacology; Drug delivery; Drug; Nanoparticle; Ethylene glycol; RNA; Conjugated system; In vivo; Nanotechnology; Biology; Medicine; In vitro; Immunology; Virology; Materials science; Biochemistry; Chemistry; Biotechnology","score_opus":0.01579089265682958,"score_gpt":0.27556851589363496,"score_spread":0.25977762323680537,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4360991491","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989321,0.00016725805,0.00015496025,0.000087996516,0.00030615882,0.0002173228,0.00004743514,0.000032904198,0.000053845604],"genre_scores_gemma":[0.99623823,0.0005346402,0.0023041908,0.00018873303,0.0001322804,0.00015485639,0.00014848435,0.000020366324,0.00027823317],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992332,0.000019859526,0.00019683788,0.00023677503,0.00005473724,0.00025860686],"domain_scores_gemma":[0.9996893,0.000017346796,0.00004512362,0.00016300102,0.00005763829,0.000027597946],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018704122,0.0001007972,0.00013454606,0.000047745096,0.000037589794,0.000025664975,0.00011329292,0.00006278925,0.000017321145],"category_scores_gemma":[0.000087110864,0.000098318385,0.000034896308,0.00007024872,0.000021502445,0.0000089845835,0.00007540884,0.000014662542,0.000045052475],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017972938,0.000012874425,0.00004121843,0.000029815179,0.0000086411455,0.000001996032,0.000038769347,0.00073782506,0.9958947,0.000026449568,0.0007558705,0.0022721386],"study_design_scores_gemma":[0.00045230432,0.0001516767,0.00028609092,0.000025719892,0.000004122873,0.0000014162847,0.00007480608,0.000020755955,0.99157983,0.00018646015,0.0070888507,0.00012798604],"about_ca_topic_score_codex":0.000008593802,"about_ca_topic_score_gemma":0.000016255306,"teacher_disagreement_score":0.00633298,"about_ca_system_score_codex":0.000010347956,"about_ca_system_score_gemma":0.000023584578,"threshold_uncertainty_score":0.40093073},"labels":[],"label_agreement":null},{"id":"W4361228888","doi":"10.1002/adma.202301011","title":"Space‐Confined Metal Ion Strategy for Carbon Materials Derived from Cobalt Benzimidazole Frameworks with High Desalination Performance in Simulated Seawater","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Membrane Separation Technologies","field":"Environmental Science","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Desalination; Cobalt; Seawater; Benzimidazole; Carbon fibers; Chemical engineering; Metal; Metal-organic framework; Nanotechnology; Metallurgy; Adsorption; Membrane; Composite material; Oceanography; Organic chemistry","score_opus":0.014105933140228184,"score_gpt":0.2537531010903094,"score_spread":0.23964716795008123,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4361228888","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99743706,0.0000074801724,0.00017888652,0.00021736546,0.0003784921,0.0011186387,0.00011242273,0.000439052,0.00011060384],"genre_scores_gemma":[0.9962522,0.000051309886,0.0026516987,0.000042860283,0.000041453193,0.00023759608,0.0005559368,0.000047234582,0.00011975533],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998129,0.00008385524,0.00048403878,0.00052544876,0.00030971557,0.00046795115],"domain_scores_gemma":[0.9992056,0.00010937387,0.00024150372,0.00035847106,0.00003715569,0.00004792821],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003825173,0.00028679988,0.00043664058,0.00011138719,0.00009454085,0.00008846149,0.00024269894,0.00032219617,0.0008543576],"category_scores_gemma":[0.00010561415,0.00024247846,0.00002143431,0.00036874393,0.00011877643,0.00046064617,0.00011536965,0.000106320585,0.00015069864],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00042742558,0.000023076795,0.00029568645,0.000028692346,0.000014260798,0.000005404902,0.00008993624,0.10616371,0.89245206,0.000117979565,0.000010750071,0.00037100434],"study_design_scores_gemma":[0.0013619835,0.0001985935,0.029001286,0.000057925852,0.000020629122,9.510352e-7,0.000096248245,0.0013899816,0.9653265,0.0021441677,0.000090663394,0.00031105787],"about_ca_topic_score_codex":0.00070936454,"about_ca_topic_score_gemma":0.00022468003,"teacher_disagreement_score":0.10477373,"about_ca_system_score_codex":0.00015939123,"about_ca_system_score_gemma":0.000017582004,"threshold_uncertainty_score":0.98879844},"labels":[],"label_agreement":null},{"id":"W4361286553","doi":"10.1002/adma.202370089","title":"Nanocomposite Engineering of a High‐Capacity Partially Ordered Cathode for Li‐Ion Batteries (Adv. Mater. 13/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Natural Resources Canada","funders":"","keywords":"Nanocomposite; Materials science; Cathode; Ion; Battery (electricity); Nanotechnology; Redox; Chemical engineering; Organic chemistry; Physical chemistry; Thermodynamics; Chemistry","score_opus":0.01607968471590465,"score_gpt":0.24347188940643053,"score_spread":0.22739220469052587,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4361286553","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9716463,0.000041723768,0.021032272,0.000066176966,0.0038311756,0.0009714797,0.0012862147,0.0010904412,0.00003419933],"genre_scores_gemma":[0.9700008,0.000113604634,0.028147459,0.000052105635,0.00028042865,0.00080886605,0.00027167966,0.0001867089,0.00013837169],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975994,0.000051636314,0.0009399293,0.0004116851,0.0002785898,0.000718754],"domain_scores_gemma":[0.99895406,0.00017099225,0.00019567735,0.00046883198,0.00012756647,0.00008288997],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00046492458,0.00045218875,0.0008158915,0.0002070366,0.000088871006,0.00008401787,0.0003388557,0.00014599442,0.00024905865],"category_scores_gemma":[0.0001415379,0.00048419263,0.000058583923,0.00027488702,0.00006120353,0.00052138197,0.00014542966,0.00006137593,0.000116916395],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012926068,0.000017936061,0.000010200414,0.0010628719,0.00006083662,0.000004927526,0.00016499756,0.0860999,0.91128397,0.0003968661,0.00038714713,0.00038106253],"study_design_scores_gemma":[0.0009183018,0.000101134545,0.00073902524,0.00023186665,0.00003734104,0.00000629411,0.00002354297,0.0003059067,0.9923421,0.0014417681,0.0033677167,0.00048498317],"about_ca_topic_score_codex":0.00002331491,"about_ca_topic_score_gemma":0.000007491265,"teacher_disagreement_score":0.085793994,"about_ca_system_score_codex":0.00010656869,"about_ca_system_score_gemma":0.000015513318,"threshold_uncertainty_score":0.999761},"labels":[],"label_agreement":null},{"id":"W4362521469","doi":"10.1002/adma.202300525","title":"2D Covalent Organic Framework Membranes for Liquid‐Phase Molecular Separations: State of the Field, Common Pitfalls, and Future Opportunities","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Covalent Organic Framework Applications","field":"Materials Science","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Victoria Park","funders":"Division of Chemical, Bioengineering, Environmental, and Transport Systems; H2020 European Research Council; Division of Materials Research; Engineering and Physical Sciences Research Council; European Research Council; National Science Foundation; Materials Research Science and Engineering Center, Northwestern University; Northwestern University; UK Research and Innovation","keywords":"Materials science; Membrane; Covalent bond; Field (mathematics); Phase (matter); Nanotechnology; Chemical physics; State (computer science); Organic chemistry; Computer science; Physics; Chemistry","score_opus":0.05078010858626893,"score_gpt":0.3746491509555121,"score_spread":0.3238690423692432,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362521469","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.009249381,0.9772678,0.0022716308,0.0010665915,0.002310352,0.0043991297,0.0031928506,0.00022937775,0.000012893729],"genre_scores_gemma":[0.00024041464,0.9945109,0.0028072828,0.0002814394,0.00029132646,0.0013460272,0.00018780417,0.00014893508,0.00018589779],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99702567,0.00029607854,0.0012772016,0.0006095861,0.0003901379,0.00040130515],"domain_scores_gemma":[0.99602914,0.0013308936,0.0010750929,0.0012620195,0.00020586702,0.00009696694],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00062221766,0.00052088173,0.0016313402,0.00011499875,0.00024796982,0.00013538405,0.00080834987,0.00037003247,0.00046030985],"category_scores_gemma":[0.00056531763,0.00038938885,0.0002298701,0.00036820315,0.00018437768,0.00015342707,0.00041170832,0.00021606516,0.00004777494],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045184558,0.00053244724,1.4735431e-7,0.13613957,0.000551885,0.000027561651,0.0008960827,0.00003338458,0.535275,0.047534596,0.0026892195,0.27586827],"study_design_scores_gemma":[0.00029439438,0.00019557773,1.6017157e-7,0.005060046,0.0005997396,0.000015318466,0.000093180504,6.972233e-7,0.19018057,0.00809894,0.7950196,0.00044173],"about_ca_topic_score_codex":0.0000083488,"about_ca_topic_score_gemma":0.000012314297,"teacher_disagreement_score":0.79233044,"about_ca_system_score_codex":0.000085478365,"about_ca_system_score_gemma":0.00034227507,"threshold_uncertainty_score":0.9998558},"labels":[],"label_agreement":null},{"id":"W4362528544","doi":"10.1002/adma.202300595","title":"Polarization‐Tuned Fano Resonances in All‐Dielectric Short‐Wave Infrared Metasurface","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metamaterials and Metasurfaces Applications","field":"Materials Science","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Army Research Office; HORIZON EUROPE Framework Programme; Mitacs; PRIMA Québec; Canada Research Chairs; Natural Sciences and Engineering Research Council of Canada; European Commission; Canada Foundation for Innovation","keywords":"Fano resonance; Nanophotonics; Materials science; Optoelectronics; Polarization (electrochemistry); Plasmon; Dielectric; Optics; Infrared; Silicon; Light scattering; Nanosensor; Wafer; Refractive index; Metamaterial; Scattering; Nanotechnology; Physics","score_opus":0.04793184180568433,"score_gpt":0.3061295789171912,"score_spread":0.2581977371115069,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362528544","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9951574,0.0004873922,0.00023545009,0.00027149345,0.0012392756,0.0009055361,0.00034537044,0.000473309,0.0008847779],"genre_scores_gemma":[0.9852455,0.00086050684,0.010879096,0.00024382,0.00009715914,0.00051247876,0.00030182305,0.00007345728,0.0017861364],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99653506,0.00033864516,0.0010045744,0.0007525268,0.000549943,0.0008192727],"domain_scores_gemma":[0.99853945,0.00018047797,0.00027233388,0.0007117149,0.00016176054,0.00013426619],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0020910106,0.00035286756,0.000743242,0.00028184502,0.00022882482,0.00022966019,0.00044313417,0.00015137704,0.001361746],"category_scores_gemma":[0.00048834155,0.00032528694,0.00006564275,0.001228303,0.00008307221,0.00061458384,0.00018036031,0.000081190425,0.0011995473],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000077713514,0.000042143998,0.000040615014,0.00004839187,0.000012697146,0.000013125036,0.00016879338,0.0004281416,0.9956717,0.0022083484,0.00045544252,0.00083289086],"study_design_scores_gemma":[0.0004442762,0.000048121965,0.0034782502,0.00003624447,0.000032051965,0.000005083267,0.000065655026,0.000048289723,0.9637828,0.004223892,0.027469357,0.00036598378],"about_ca_topic_score_codex":0.000102702674,"about_ca_topic_score_gemma":0.000042108593,"teacher_disagreement_score":0.031888902,"about_ca_system_score_codex":0.000093518145,"about_ca_system_score_gemma":0.00009395404,"threshold_uncertainty_score":0.9999199},"labels":[],"label_agreement":null},{"id":"W4362528545","doi":"10.1002/adma.202203218","title":"Enabling Future Closed‐Loop Recycling of Spent Lithium‐Ion Batteries: Direct Cathode Regeneration","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Extraction and Separation Processes","field":"Engineering","cited_by":182,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Waterloo Institute for Nanotechnology, University of Waterloo; Natural Sciences and Engineering Research Council of Canada; University of Waterloo","keywords":"Materials science; Regeneration (biology); Cathode; Lithium (medication); Ion; Closed loop; Nanotechnology; Waste management; Forensic engineering; Electrical engineering; Engineering; Control engineering","score_opus":0.05175599080325415,"score_gpt":0.3393589296077494,"score_spread":0.2876029388044952,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362528545","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00027854304,0.9897843,0.0007605285,0.000016663995,0.0062322044,0.000658837,0.00020324305,0.000653693,0.0014120048],"genre_scores_gemma":[0.00005300077,0.99471277,0.0013786533,0.000013219223,0.0011559246,0.00021203568,0.0005883424,0.00014383509,0.0017421949],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9978595,0.0001262978,0.0011706195,0.00035458658,0.00024004435,0.00024896496],"domain_scores_gemma":[0.9988334,0.00015976981,0.0004551817,0.00036547176,0.00013137587,0.000054769644],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048476204,0.00041028,0.0013738592,0.00022777368,0.00007972359,0.00009390113,0.00017652473,0.00033292282,0.00020626599],"category_scores_gemma":[0.00017123162,0.00037577946,0.00013435107,0.0003473662,0.000018237346,0.00033997168,0.000033158914,0.00017061594,0.00013641149],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027248607,0.000034729896,1.1561107e-7,0.08763494,0.00023914807,0.000015939813,0.00038738825,0.0059358003,0.17425896,0.00034654958,0.002398595,0.72872055],"study_design_scores_gemma":[0.00008804137,0.000017639393,2.104767e-7,0.0049712877,0.00013196756,0.000008481586,0.00004812822,0.000009419038,0.12217726,0.000066905806,0.87214947,0.00033121533],"about_ca_topic_score_codex":0.0000049036794,"about_ca_topic_score_gemma":0.000014274896,"teacher_disagreement_score":0.86975086,"about_ca_system_score_codex":0.00013956282,"about_ca_system_score_gemma":0.00007872721,"threshold_uncertainty_score":0.9998694},"labels":[],"label_agreement":null},{"id":"W4362632632","doi":"10.1002/adma.202301060","title":"Mechanically Responsive Circularly Polarized Luminescence from Cellulose‐Nanocrystal‐Based Shape‐Memory Polymers","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polydiacetylene-based materials and applications","field":"Chemistry","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"CRB Innovations (Canada); FPInnovations; BC Innovation Council; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council","keywords":"Materials science; Luminescence; Nanocrystal; Polymer; Photonics; Optoelectronics; Smart material; Nanotechnology; Composite material","score_opus":0.012516762136988949,"score_gpt":0.2430777488863188,"score_spread":0.23056098674932984,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362632632","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99293286,0.00015234917,0.0012719469,0.00063356967,0.0006436888,0.0003355252,0.0025731933,0.0009014505,0.00055543066],"genre_scores_gemma":[0.99305326,0.000064572756,0.0026960857,0.0005419959,0.0003168624,0.0004145639,0.001285814,0.00012586995,0.0015009932],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99706596,0.000104891755,0.00074322877,0.0008658413,0.00048806777,0.00073201035],"domain_scores_gemma":[0.9978081,0.000374826,0.00037984014,0.0010301071,0.00015647411,0.00025065758],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0003761978,0.00044241268,0.00064974686,0.00011894879,0.00021306392,0.00018141336,0.0005936908,0.00027368878,0.0089416],"category_scores_gemma":[0.0003552087,0.0004579599,0.0001513603,0.00035978956,0.000115458395,0.00025409233,0.00017872835,0.00012520324,0.00078319066],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00042379549,0.000066094115,0.000005541397,0.00010199086,0.000036303307,0.000047596004,0.000052723728,0.0000059374192,0.99810314,0.00038794664,0.0001277163,0.0006411926],"study_design_scores_gemma":[0.0016397154,0.000025089972,0.00007681341,0.0001431478,0.000061844396,0.0000025695401,0.00011218835,0.000102659906,0.99366903,0.0009868696,0.0026495736,0.00053048355],"about_ca_topic_score_codex":0.0002899048,"about_ca_topic_score_gemma":0.00000916005,"teacher_disagreement_score":0.00815841,"about_ca_system_score_codex":0.0001324417,"about_ca_system_score_gemma":0.00024257622,"threshold_uncertainty_score":0.9999948},"labels":[],"label_agreement":null},{"id":"W4362669720","doi":"10.1002/adma.202370104","title":"A Wafer‐Scale Nanoporous 2D Active Pixel Image Sensor Matrix with High Uniformity, High Sensitivity, and Rapid Switching (Adv. Mater. 14/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gas Sensing Nanomaterials and Sensors","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Nanoporous; Materials science; Wafer; Active matrix; Pixel; Nanoscopic scale; Image sensor; Sensitivity (control systems); Optoelectronics; Nanotechnology; CMOS; Matrix (chemical analysis); Electronic engineering; Computer science; Artificial intelligence; Thin-film transistor; Engineering","score_opus":0.004942460080454717,"score_gpt":0.209762251816595,"score_spread":0.2048197917361403,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362669720","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947099,0.00002971275,0.0003019012,0.00018335026,0.0017284403,0.0006419308,0.00058740046,0.0016051099,0.00021226234],"genre_scores_gemma":[0.9883703,0.00034344432,0.010227185,0.000048251364,0.00024302612,0.000031478,0.000167338,0.00022875288,0.000340244],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99723464,0.00016597568,0.0006027593,0.00063884514,0.00041093532,0.0009468644],"domain_scores_gemma":[0.9987622,0.00017194077,0.00017987947,0.000527453,0.00015868424,0.00019986935],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00050648424,0.0006460648,0.0009827514,0.00025598114,0.00026432564,0.0003293363,0.00013226453,0.0002210398,0.00011068745],"category_scores_gemma":[0.000055958426,0.00057186646,0.00005836376,0.00035808442,0.00011135375,0.00063735375,0.00019193227,0.0001533609,0.00026787136],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029348873,0.000021965705,0.000015433341,0.0003271556,0.00008753487,0.00039280078,0.00033448392,0.002901533,0.99433535,0.00010889899,0.00011860044,0.0010627498],"study_design_scores_gemma":[0.0014935358,0.00016222121,0.004676009,0.00020882595,0.00008158039,0.00034698157,0.00033208964,0.00027501653,0.99059117,0.00054630765,0.00049270457,0.0007935714],"about_ca_topic_score_codex":0.0002643267,"about_ca_topic_score_gemma":0.00011064312,"teacher_disagreement_score":0.0099252835,"about_ca_system_score_codex":0.00013796729,"about_ca_system_score_gemma":0.000027276295,"threshold_uncertainty_score":0.9996733},"labels":[],"label_agreement":null},{"id":"W4364378853","doi":"10.1002/adma.202300905","title":"Geometric and Electronic Engineering of Atomically Dispersed Copper‐Cobalt Diatomic Sites for Synergistic Promotion of Bifunctional Oxygen Electrocatalysis in Zinc–Air Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":249,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"Natural Science Foundation of Heilongjiang Province; National Natural Science Foundation of China","keywords":"Electrocatalyst; Bifunctional; Oxygen evolution; Overpotential; Cobalt; Materials science; Zinc; Catalysis; Inorganic chemistry; Oxygen; Copper; Chemical engineering; Electrochemistry; Chemistry; Electrode; Physical chemistry; Metallurgy; Organic chemistry","score_opus":0.006833169024916912,"score_gpt":0.2181539127543278,"score_spread":0.2113207437294109,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4364378853","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982608,0.00015707345,0.00094963715,0.00006802534,0.00012366271,0.0002813903,0.000034218352,0.0001105265,0.000014652341],"genre_scores_gemma":[0.9984426,0.00020722531,0.00045488402,0.0000114350105,0.00004623671,0.00015281621,0.00057579676,0.000053645166,0.00005537618],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99820095,0.000043576034,0.00058204774,0.00037844162,0.00027621305,0.0005187431],"domain_scores_gemma":[0.9990161,0.00029920813,0.00024025074,0.0002328877,0.00016062362,0.000050953306],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00047010012,0.00023284422,0.0005596061,0.00080108596,0.000046206897,0.0000118388925,0.00015658396,0.000109603,0.00003995867],"category_scores_gemma":[0.00063115795,0.00023830778,0.00008288841,0.0011924885,0.00005717467,0.00024273942,0.000069215086,0.00006119282,0.000008166577],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033968632,0.000045786335,0.00022465893,0.00033338543,0.0000986502,0.000001171137,0.00003689666,0.0081222085,0.9835219,0.0067596594,0.000022962222,0.000493055],"study_design_scores_gemma":[0.0010889915,0.00030426568,0.00418804,0.000058498666,0.00007276164,0.0000032234345,0.00002328214,0.0011475362,0.99125963,0.0014058511,0.00022232345,0.00022561321],"about_ca_topic_score_codex":0.00015999796,"about_ca_topic_score_gemma":0.00018836158,"teacher_disagreement_score":0.0077377334,"about_ca_system_score_codex":0.00030194095,"about_ca_system_score_gemma":0.00009423674,"threshold_uncertainty_score":0.9717909},"labels":[],"label_agreement":null},{"id":"W4365484799","doi":"10.1002/adma.202301414","title":"From Nanoalloy to Nano‐Laminated Interfaces for Highly Stable Alkali‐Metal Anodes","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Office of Science; Western University; Canada Foundation for Innovation; U.S. Department of Energy","keywords":"Materials science; Anode; Electrochemistry; Electrolyte; Metal; Nanotechnology; Alkali metal; Gravimetric analysis; Dendrite (mathematics); Electrochemical potential; Chemical engineering; Composite material; Electrode; Metallurgy; Organic chemistry","score_opus":0.011941361165498477,"score_gpt":0.24336740134547233,"score_spread":0.23142604017997384,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4365484799","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9874923,0.000117175536,0.0035793788,0.0001648167,0.0030407954,0.00062637083,0.0014134201,0.0034813967,0.000084329266],"genre_scores_gemma":[0.9847119,0.00016275444,0.013546644,0.000055614877,0.0001503962,0.0005227859,0.0002483195,0.00011564248,0.0004859685],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99840474,0.000018923663,0.000432184,0.00040276148,0.00015224486,0.0005891371],"domain_scores_gemma":[0.999283,0.00011354778,0.00006656011,0.00039730422,0.000077984136,0.00006161238],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00017636426,0.00032627615,0.00051609235,0.00017754489,0.00009132903,0.00012085249,0.0003469333,0.00013592448,0.000174813],"category_scores_gemma":[0.00014548846,0.000307565,0.00004227218,0.00029659944,0.000039701754,0.00041881716,0.00016556587,0.00004121372,0.00035087613],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006993865,0.0000091294505,0.0000019192864,0.00010239711,0.000045791843,0.0000065340287,0.00009712321,0.004533291,0.9880761,0.0002273853,0.0028943059,0.0039361184],"study_design_scores_gemma":[0.00042560304,0.00009692382,0.00006443602,0.00008888478,0.000016173593,0.0000010598103,0.00021805208,0.00005378729,0.959113,0.005754235,0.03378748,0.00038038287],"about_ca_topic_score_codex":0.000027029102,"about_ca_topic_score_gemma":0.000013217104,"teacher_disagreement_score":0.030893175,"about_ca_system_score_codex":0.0000741025,"about_ca_system_score_gemma":0.000008977385,"threshold_uncertainty_score":0.99993765},"labels":[],"label_agreement":null},{"id":"W4366140787","doi":"10.1002/adma.202301129","title":"Defect‐Rich MoSe<sub>2</sub> 2H/1T Hybrid Nanoparticles Prepared from Femtosecond Laser Ablation in Liquid and Their Enhanced Photothermal Conversion Efficiencies","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Laser-Ablation Synthesis of Nanoparticles","field":"Engineering","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"University of Waterloo","keywords":"Materials science; Nanoparticle; Nucleation; Nanoclusters; Laser; Photothermal therapy; Laser ablation; Femtosecond; Laser ablation synthesis in solution; Crystallite; Optoelectronics; Laser power scaling; Nanotechnology; Optics; Organic chemistry; X-ray laser","score_opus":0.007202090581099521,"score_gpt":0.1963022382009791,"score_spread":0.1891001476198796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4366140787","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980775,0.00013503182,0.000119158234,0.000039432656,0.00033958716,0.000439141,0.00016885111,0.0006157729,0.000065505745],"genre_scores_gemma":[0.9992601,0.00021306635,0.00017774875,0.000064796426,0.0000381725,0.00012018772,0.000056571505,0.00006295594,0.0000063655593],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99840957,0.000098562494,0.0004713137,0.0003870594,0.00019686326,0.00043665615],"domain_scores_gemma":[0.9990962,0.0003758389,0.00009775608,0.00028542822,0.00005905472,0.00008570413],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000373912,0.00027146863,0.00037475073,0.00015129014,0.00008795738,0.00008306395,0.00013222251,0.00007289461,0.00013896593],"category_scores_gemma":[0.00017120833,0.00025793546,0.000041101543,0.000286538,0.00006631522,0.00058358815,0.00007733075,0.000056131645,0.00021139043],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019370767,0.00002462748,0.00006951599,0.000042925967,0.00002288713,0.000005812357,0.00055072637,0.019882701,0.978082,0.000005376249,0.000072279945,0.0010474459],"study_design_scores_gemma":[0.0008578652,0.0000585175,0.0030136968,0.000080127356,0.000011706417,0.0000016116621,0.00023309565,0.0023487126,0.99263513,0.00028331662,0.00017649023,0.00029971695],"about_ca_topic_score_codex":0.000015671654,"about_ca_topic_score_gemma":0.00003652241,"teacher_disagreement_score":0.017533988,"about_ca_system_score_codex":0.000088217115,"about_ca_system_score_gemma":0.000018690645,"threshold_uncertainty_score":0.9999873},"labels":[],"label_agreement":null},{"id":"W4366742212","doi":"10.1002/adma.202300875","title":"Material Breakthroughs in Smart Food Monitoring: Intelligent Packaging and On‐Site Testing Technologies for Spoilage and Contamination Detection","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Biosensors and Analytical Detection","field":"Engineering","cited_by":151,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Mitacs","keywords":"Food spoilage; Risk analysis (engineering); Quality (philosophy); Active packaging; Food packaging; Biochemical engineering; Computer science; Food quality; Food safety; Situation awareness; Systems engineering; Nanotechnology; Materials science; Business; Engineering; Medicine","score_opus":0.050828028533432205,"score_gpt":0.2986586618297616,"score_spread":0.24783063329632937,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4366742212","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.311332,0.6723589,0.0021906672,0.000022242297,0.0061365794,0.0039427653,0.0007036487,0.0032586472,0.000054582564],"genre_scores_gemma":[0.1045,0.89415187,0.00067530625,0.0000011985255,0.00017686025,0.00034892507,0.000029443612,0.000101356745,0.0000150593805],"study_design_codex":"design_other","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988075,0.000028201423,0.00048817252,0.00033369803,0.00008413868,0.0002583015],"domain_scores_gemma":[0.9994594,0.00023489074,0.00011501231,0.0001314111,0.00003391476,0.000025356887],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025154758,0.00031494445,0.0007680295,0.00021583504,0.00006312554,0.000117552314,0.000053333228,0.00028341825,9.625436e-7],"category_scores_gemma":[0.00028769125,0.0002888248,0.000042205076,0.0002207018,0.000033286084,0.00011769066,0.000049484563,0.00012491028,0.000005389746],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012353615,0.000004773616,0.0000014599364,0.009525015,0.000027491087,0.00000331473,0.000015097816,0.00001939811,0.027586386,0.000037160225,7.754011e-7,0.96276677],"study_design_scores_gemma":[0.001059552,0.0012533426,0.00018114521,0.040500592,0.0005422862,0.0000876822,0.00031470082,0.0005058111,0.8368404,0.003047161,0.11376977,0.0018975687],"about_ca_topic_score_codex":0.000007481974,"about_ca_topic_score_gemma":0.000014602455,"teacher_disagreement_score":0.9608692,"about_ca_system_score_codex":0.00014503958,"about_ca_system_score_gemma":0.0000055612923,"threshold_uncertainty_score":0.99995637},"labels":[],"label_agreement":null},{"id":"W4366743024","doi":"10.1002/adma.202300387","title":"Surface Ligand Engineering Ruthenium Nanozyme Superior to Horseradish Peroxidase for Enhanced Immunoassay","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Nanomaterials in Catalysis","field":"Materials Science","cited_by":200,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Key Research and Development Program of China; Youth Innovation Promotion Association of the Chinese Academy of Sciences; Chinese Academy of Sciences; National Natural Science Foundation of China; Innovative Research Group Project of the National Natural Science Foundation of China","keywords":"Horseradish peroxidase; Ruthenium; Materials science; Immunoassay; Ligand (biochemistry); Surface modification; Nanotechnology; Chemical engineering; Combinatorial chemistry; Organic chemistry; Catalysis; Chemistry; Enzyme; Biochemistry; Engineering","score_opus":0.011076015025653918,"score_gpt":0.2643082015920315,"score_spread":0.2532321865663776,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4366743024","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9830126,0.00010475294,0.0071224463,0.0002474549,0.0052038557,0.0016663416,0.0012812236,0.001324907,0.00003640575],"genre_scores_gemma":[0.9570285,0.000074448064,0.03991296,0.00015198506,0.0004193361,0.0009458194,0.00022594759,0.00021983788,0.0010211549],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957628,0.00009247067,0.0010607634,0.0011610523,0.0005387209,0.0013841596],"domain_scores_gemma":[0.9975652,0.00043967387,0.00026931666,0.0010997469,0.00032410075,0.00030195236],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00145381,0.00063641404,0.0010746412,0.00025629904,0.00034917958,0.00036476934,0.00083060644,0.00020327668,0.0005521828],"category_scores_gemma":[0.0012076559,0.0006349058,0.00016947948,0.0007730806,0.0000837484,0.00085349556,0.0003945826,0.00007127374,0.0019006409],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004170449,0.000033778302,0.0000018227975,0.000178936,0.00002494297,0.000011827919,0.00051066605,0.009864768,0.98813295,0.00020773802,0.00032808297,0.00028741467],"study_design_scores_gemma":[0.0011070936,0.00018712622,0.000073329466,0.00014092981,0.00004466007,0.000007890516,0.00015679027,0.000031861073,0.9901398,0.00035441175,0.0069513214,0.0008047799],"about_ca_topic_score_codex":0.000021151638,"about_ca_topic_score_gemma":0.0000055535556,"teacher_disagreement_score":0.032790516,"about_ca_system_score_codex":0.00025313708,"about_ca_system_score_gemma":0.00008994727,"threshold_uncertainty_score":0.99961025},"labels":[],"label_agreement":null},{"id":"W4366760304","doi":"10.1002/adma.202301837","title":"Thermally Stable Red‐Emitting Oxide Ceramics for Laser Lighting","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Luminescence Properties of Advanced Materials","field":"Materials Science","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan","funders":"Government of Saskatchewan; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Alliance de recherche numérique du Canada; Siberian Branch, Russian Academy of Sciences; Guangdong Provincial Pearl River Talents Program; Canadian Light Source","keywords":"Materials science; Phosphor; Color rendering index; Photoluminescence; Laser; Ceramic; Luminous flux; Oxide; Optoelectronics; Luminescence; Luminous efficacy; Red light; Optics; Nanotechnology; Composite material; Metallurgy","score_opus":0.019823144385201014,"score_gpt":0.2652621103671987,"score_spread":0.2454389659819977,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4366760304","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99259704,0.00005441572,0.0005792504,0.0004799454,0.002904282,0.0011859596,0.0003303449,0.0013438656,0.00052488217],"genre_scores_gemma":[0.94170785,0.000114000344,0.05319804,0.0004221471,0.000590593,0.0007428325,0.00012876868,0.00020173732,0.0028940456],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962338,0.00012023984,0.0010136992,0.00086005125,0.00047973995,0.0012924745],"domain_scores_gemma":[0.997864,0.0003405619,0.0005159672,0.0007166561,0.00041045394,0.00015235014],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.002020158,0.00045438018,0.0007233821,0.00014471082,0.00046481338,0.00038353875,0.0006865697,0.00016102135,0.00053003564],"category_scores_gemma":[0.001531564,0.0003993292,0.000098091914,0.00030576944,0.00011896845,0.0012659219,0.00039224315,0.000071516624,0.00082461524],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029626332,0.00002647857,0.000019607109,0.00028967662,0.000010909132,0.000012533527,0.00017783172,0.0017291884,0.99554545,0.00035239296,0.0009284081,0.0006112827],"study_design_scores_gemma":[0.0008976329,0.0000891604,0.00010524745,0.00019454773,0.00002359843,0.000008808192,0.0002988861,0.000020239462,0.98416096,0.0023790873,0.011283701,0.00053810974],"about_ca_topic_score_codex":0.00003334335,"about_ca_topic_score_gemma":0.000006957053,"teacher_disagreement_score":0.05261879,"about_ca_system_score_codex":0.00016545331,"about_ca_system_score_gemma":0.00009793519,"threshold_uncertainty_score":0.9999533},"labels":[],"label_agreement":null},{"id":"W4366815190","doi":"10.1002/adma.202300422","title":"Life‐Cycle Assessment of Ti<sub>3</sub>C<sub>2</sub>T<i><sub>x</sub></i> MXene Synthesis","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"MXenes; Materials science; Life-cycle assessment; Nitride; Raw material; MAX phases; Carbide; Renewable energy; Nanotechnology; Metallurgy; Production (economics); Electrical engineering","score_opus":0.014714380681022116,"score_gpt":0.2755151088140963,"score_spread":0.2608007281330742,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4366815190","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98784053,0.00014857954,0.0003824429,0.0004705033,0.005797145,0.0015880237,0.0020984432,0.0010721979,0.0006021342],"genre_scores_gemma":[0.9929935,0.0019582463,0.0015704947,0.0007419772,0.0009615527,0.0011515467,0.0002734908,0.00031875592,0.000030481535],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9908629,0.0009303803,0.002667277,0.0018763146,0.00163375,0.002029363],"domain_scores_gemma":[0.99428964,0.0008161848,0.0016087408,0.001973815,0.00053982396,0.00077180285],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.003611301,0.0012112781,0.0024669177,0.00055438076,0.00051788136,0.0005377416,0.001215825,0.0005249777,0.00074864173],"category_scores_gemma":[0.001719173,0.001190327,0.00038399635,0.0009551221,0.00041014672,0.0013002747,0.0009824549,0.00021421583,0.0025407937],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040193257,0.00033270157,0.000013773107,0.00083404646,0.00012094954,0.000114688235,0.00014117622,0.0008503932,0.98726237,0.0006527012,0.003646978,0.0056282715],"study_design_scores_gemma":[0.0015739738,0.0002933541,0.0009015496,0.00052306516,0.00026839742,0.000028938492,0.00012809814,0.000034965127,0.9906236,0.0026573392,0.0016805177,0.0012861986],"about_ca_topic_score_codex":0.000061015002,"about_ca_topic_score_gemma":0.000044799526,"teacher_disagreement_score":0.0051529235,"about_ca_system_score_codex":0.00031014535,"about_ca_system_score_gemma":0.00065421854,"threshold_uncertainty_score":0.9990547},"labels":[],"label_agreement":null},{"id":"W4372300370","doi":"10.1002/adma.202302122","title":"Porosity as a Design Element for Developing Catalytic Molecular Materials for Electrochemical and Photochemical Carbon Dioxide Reduction","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Basic Energy Sciences; Lawrence Berkeley National Laboratory; Canadian Institute for Advanced Research; U.S. Department of Energy; Office of Science; National Science Foundation","keywords":"Materials science; Electrochemical reduction of carbon dioxide; Carbon dioxide; Electrochemistry; Porosity; Catalysis; Reduction (mathematics); Photochemistry; Carbon fibers; Nanotechnology; Chemical engineering; Composite material; Organic chemistry; Carbon monoxide; Electrode; Physical chemistry; Chemistry","score_opus":0.038102805633435016,"score_gpt":0.3372367452035224,"score_spread":0.2991339395700874,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4372300370","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.012967189,0.9234016,0.03495619,0.00012917412,0.0026133375,0.023286747,0.0007900074,0.0017896466,0.00006613513],"genre_scores_gemma":[0.00087252696,0.9592595,0.01976886,0.00002951473,0.00052774715,0.01658143,0.0023686728,0.00032985138,0.00026188727],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969204,0.00010412644,0.0011430833,0.0009358818,0.00028370283,0.00061280763],"domain_scores_gemma":[0.99847394,0.00013987432,0.0006036169,0.00044988873,0.00023191108,0.000100763216],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008490368,0.0006258653,0.0018855997,0.00015792841,0.00010308531,0.00009017386,0.0002552755,0.0004646972,0.000018636136],"category_scores_gemma":[0.0004746787,0.0006031507,0.00023197425,0.00017810275,0.000056795867,0.00008618942,0.00014087389,0.00009291026,0.0000070715514],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016956656,0.000018095476,9.402531e-10,0.010038651,0.00017382554,0.0000032537791,0.0000132902105,8.510434e-7,0.95327944,0.0016425594,0.00008620912,0.034574285],"study_design_scores_gemma":[0.00032657848,0.00011479544,8.990809e-9,0.0025307809,0.0005647064,0.000119455726,0.00000875326,4.0199797e-7,0.84114033,0.007260662,0.14737855,0.0005549586],"about_ca_topic_score_codex":0.00010042627,"about_ca_topic_score_gemma":0.0000015050963,"teacher_disagreement_score":0.14729235,"about_ca_system_score_codex":0.00077619485,"about_ca_system_score_gemma":0.00032662545,"threshold_uncertainty_score":0.999642},"labels":[],"label_agreement":null},{"id":"W4372346142","doi":"10.1002/adma.202301096","title":"Imitating Architectural Mortise‐Tenon Structure for Stable Ni‐Rich Layered Cathodes","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Vehicle Technologies Office; Soft Science Research Project of Guangdong Province; Office of Science; China Postdoctoral Science Foundation; Wuhan University; University of Chicago; National Natural Science Foundation of China; Chinese Academy of Sciences; Argonne National Laboratory; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada","keywords":"Materials science; Mortise and tenon; Spinel; Faraday efficiency; Cathode; Durability; Electrolyte; Composite material; Ion; Metallurgy; Structural engineering; Electrical engineering; Electrode; Chemistry","score_opus":0.018051994996454417,"score_gpt":0.27382279328230674,"score_spread":0.2557707982858523,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4372346142","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98689127,0.00007468478,0.0060175783,0.000044111774,0.0034338825,0.0008470265,0.0013317509,0.0012207,0.00013897223],"genre_scores_gemma":[0.95121044,0.000035167384,0.04711971,0.00007994361,0.00032407377,0.00037145076,0.00036561207,0.00016177277,0.00033180395],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980258,0.00004798839,0.00057047966,0.00037390084,0.00023194206,0.00074991025],"domain_scores_gemma":[0.9991693,0.0001712855,0.00012369988,0.00038459228,0.00008342374,0.00006769837],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002846706,0.00035177264,0.0004963253,0.00013534959,0.00014904627,0.00011389747,0.0002575591,0.00009409953,0.00030550436],"category_scores_gemma":[0.00022822923,0.00034234943,0.00002875413,0.00022055733,0.000034648,0.00035103032,0.000092496135,0.00006726662,0.00006435242],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000054129305,0.0000041096264,0.000015248203,0.00035855352,0.000032457443,0.0000054356674,0.00024773064,0.08634424,0.90879786,0.00013464433,0.00070057577,0.0033049993],"study_design_scores_gemma":[0.00071571855,0.00005457183,0.00040774932,0.00007382248,0.000020975132,0.000009525667,0.00011431009,0.00023291667,0.9867474,0.009886865,0.0013002704,0.0004359101],"about_ca_topic_score_codex":0.0000072314724,"about_ca_topic_score_gemma":0.000008494019,"teacher_disagreement_score":0.08611132,"about_ca_system_score_codex":0.000115951145,"about_ca_system_score_gemma":0.000015035493,"threshold_uncertainty_score":0.99990284},"labels":[],"label_agreement":null},{"id":"W4376225679","doi":"10.1002/adma.202301842","title":"Sequential Co‐Passivation in InAs Colloidal Quantum Dot Solids Enables Efficient Near‐Infrared Photodetectors","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; University of Waterloo; University of Toronto; University of Alberta; University of Saskatchewan; Canadian Light Source","keywords":"Passivation; Materials science; Quantum dot; Photodetector; Optoelectronics; Photoluminescence; Absorption (acoustics); Indium; Infrared; Quantum efficiency; Nanotechnology; Optics; Layer (electronics); Physics","score_opus":0.024269280260164054,"score_gpt":0.2742305427568338,"score_spread":0.24996126249666972,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4376225679","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996272,0.00008150254,0.000031354066,0.00010982811,0.0019743436,0.0005870574,0.00018701666,0.00039278134,0.00036408144],"genre_scores_gemma":[0.99856776,0.000077499404,0.0003656404,0.00008187761,0.00013152687,0.00026441127,0.00005412943,0.000056215606,0.00040092325],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99710834,0.00029097093,0.00075375475,0.00056215696,0.0005510502,0.0007337563],"domain_scores_gemma":[0.998961,0.00016613597,0.00025534342,0.00041082266,0.00011333259,0.00009339782],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0013632149,0.00031195005,0.0005414901,0.00021456373,0.00030416844,0.00038687114,0.000344254,0.0001473886,0.0016680292],"category_scores_gemma":[0.0004579016,0.00026522597,0.000064240485,0.00045092264,0.00019988934,0.0003390908,0.00013685031,0.00007880434,0.0010295794],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033421523,0.000050028215,0.000037998372,0.000096579366,0.000005518664,0.000023993345,0.0007252644,0.004891405,0.99272984,0.00038002638,0.0004871122,0.00023804345],"study_design_scores_gemma":[0.00070032524,0.00011896399,0.0013019675,0.00012781935,0.0000074832487,0.000004521706,0.0003642115,0.0005629172,0.98993015,0.0009693431,0.005551199,0.0003610984],"about_ca_topic_score_codex":0.0002973699,"about_ca_topic_score_gemma":0.000034985547,"teacher_disagreement_score":0.0050640865,"about_ca_system_score_codex":0.00018545384,"about_ca_system_score_gemma":0.00015639236,"threshold_uncertainty_score":0.99998},"labels":[],"label_agreement":null},{"id":"W4376272836","doi":"10.1002/adma.202303370","title":"Induction of Bleb Structures in Lipid Nanoparticle Formulations of mRNA Leads to Improved Transfection Potency","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":210,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"FPInnovations; Canada's Michael Smith Genome Sciences Centre; University of British Columbia","funders":"Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Transfection; Messenger RNA; Potency; In vitro; In vivo; Bleb (medicine); Intracellular; Biophysics; Chemistry; Biochemistry; Biology","score_opus":0.01132788403523171,"score_gpt":0.2722488461444323,"score_spread":0.26092096210920057,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4376272836","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9991279,0.00001733115,0.00027155856,0.00004636116,0.0002757334,0.00018028762,0.000036177444,0.000009190165,0.00003542273],"genre_scores_gemma":[0.99930215,0.000065108215,0.00041389526,0.000022228516,0.000051221014,0.000024340048,0.00004526984,0.000008439661,0.00006732491],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99940586,0.000023137432,0.0002532212,0.00014238985,0.000057929694,0.00011745529],"domain_scores_gemma":[0.9996967,0.0000043961795,0.000059172176,0.00013876757,0.00008090196,0.000020077745],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000109101355,0.000067366615,0.00012662019,0.00007673249,0.000016743788,0.000004163801,0.000059999977,0.00006263425,0.00002034181],"category_scores_gemma":[0.000054482858,0.000064834705,0.000028461547,0.00015732803,0.000016450615,0.000010757396,0.000021962956,0.000016646683,0.0000035878413],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017567532,0.0000157422,0.00017216157,0.000026068838,0.0000069713215,1.2656345e-7,0.000087283115,0.0011430389,0.99512696,0.000056043118,0.000026113163,0.0031638222],"study_design_scores_gemma":[0.00030023785,0.00035523507,0.010401712,0.000016024866,0.0000053605345,9.719378e-7,0.000046064837,0.000007693582,0.98820114,0.00048149005,0.00011898517,0.000065061766],"about_ca_topic_score_codex":0.00007368669,"about_ca_topic_score_gemma":0.00008788978,"teacher_disagreement_score":0.01022955,"about_ca_system_score_codex":0.000007787598,"about_ca_system_score_gemma":0.000019844781,"threshold_uncertainty_score":0.26438826},"labels":[],"label_agreement":null},{"id":"W4376638275","doi":"10.1002/adma.202212056","title":"Simple and Versatile Platforms for Manipulating Light with Matter: Strong Light–Matter Coupling in Fully Solution‐Processed Optical Microcavities","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Strong Light-Matter Interactions","field":"Physics and Astronomy","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Regroupement Québécois sur les Matériaux de Pointe","funders":"H2020 European Research Council; European Research Council; Generalitat Valenciana; National Science Foundation","keywords":"Materials science; Optoelectronics; Refractive index; Coupling (piping); Optical microcavity; Optics; Polariton; Laser; Physics","score_opus":0.014080655332098149,"score_gpt":0.2693543505721808,"score_spread":0.2552736952400827,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4376638275","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99435866,0.000007997373,0.003699426,0.00032574465,0.00022778846,0.00047287127,0.00011768578,0.00007513944,0.00071471557],"genre_scores_gemma":[0.9960462,1.7917564e-7,0.0028613433,0.00006244527,0.00019535387,0.00035127683,0.00017476901,0.00005709196,0.00025137377],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99861443,0.000005827365,0.00039551032,0.00035824452,0.00013262295,0.00049335446],"domain_scores_gemma":[0.9994106,0.000117568576,0.00015154746,0.0001881316,0.000072562616,0.000059563015],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011756349,0.0002395944,0.00033170485,0.00012483525,0.0001902023,0.00020384976,0.000113053306,0.000043491174,0.00047694508],"category_scores_gemma":[0.0000054549328,0.00021019096,0.00003688189,0.00012325749,0.00003349519,0.00073291117,0.0000802478,0.0000842285,0.00017728703],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023397623,0.000044354307,0.021217039,0.00018354041,0.00007122355,0.0000032875346,0.00039853342,0.0024322602,0.9729309,0.0011943948,0.0011937815,0.00009672553],"study_design_scores_gemma":[0.001659708,0.00010298218,0.014302066,0.0002505223,0.000045283425,0.0000045286824,0.0024434815,0.00046244677,0.97609955,0.0037168132,0.00046530462,0.00044731214],"about_ca_topic_score_codex":0.000066636305,"about_ca_topic_score_gemma":0.000021316633,"teacher_disagreement_score":0.0069149737,"about_ca_system_score_codex":0.00005550127,"about_ca_system_score_gemma":0.000027347609,"threshold_uncertainty_score":0.85713387},"labels":[],"label_agreement":null},{"id":"W4377019429","doi":"10.1002/adma.202303336","title":"Modulating Zinc Metal Reversibility by Confined Antifluctuator Film for Durable and Dendrite‐Free Zinc Ion Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":86,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"University of Electronic Science and Technology of China; Queen's University; Queen's University Belfast","keywords":"Materials science; Anode; Zinc; Chemical engineering; Dendrite (mathematics); Corrosion; Plating (geology); Galvanic anode; Composite material; Metallurgy; Electrode; Cathodic protection","score_opus":0.01686702021959211,"score_gpt":0.2679279294464584,"score_spread":0.25106090922686625,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4377019429","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98866016,0.00017350444,0.006694342,0.0002978787,0.00061293074,0.0008044244,0.0010913938,0.0015710243,0.000094341005],"genre_scores_gemma":[0.983539,0.00030901944,0.0148453405,0.00003731016,0.000059944738,0.0003108013,0.0002272539,0.00009549597,0.0005758745],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99819183,0.00003578603,0.000423026,0.00046378883,0.00024974416,0.0006358109],"domain_scores_gemma":[0.99885166,0.00029201782,0.00007241215,0.0006143895,0.00009777742,0.000071744296],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004441878,0.00027928906,0.00046360612,0.0001321996,0.00018189925,0.000093056464,0.00035786294,0.00014670836,0.00014922839],"category_scores_gemma":[0.0010348528,0.0002857611,0.000043444736,0.00026776423,0.0001482248,0.0005392292,0.00033048738,0.00011019617,0.000031732106],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005985373,0.0000066615758,0.000037354108,0.0003946002,0.000033059197,0.0000055576393,0.00003804476,0.0013644877,0.9904619,0.00013274277,0.0043506734,0.0031150614],"study_design_scores_gemma":[0.00088352367,0.00007536872,0.00035937715,0.000054107175,0.000012810238,0.0000060537213,0.00018484975,0.0019274271,0.98287475,0.005585309,0.00769387,0.00034255566],"about_ca_topic_score_codex":0.000009960586,"about_ca_topic_score_gemma":0.000008968215,"teacher_disagreement_score":0.0081509985,"about_ca_system_score_codex":0.000102634156,"about_ca_system_score_gemma":0.000011885201,"threshold_uncertainty_score":0.99995947},"labels":[],"label_agreement":null},{"id":"W4378640164","doi":"10.1002/adma.202301109","title":"In Situ Activation of Snap‐Through Instability in Multi‐Response Metamaterials through Multistable Topological Transformation","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"China Scholarship Council; China Sponsorship Council; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Metamaterial; Bistability; Tensegrity; Multivibrator; Materials science; Topology (electrical circuits); Instability; Monotonic function; Fabrication; Transformation (genetics); Nanotechnology; Computer science; Optoelectronics; Physics; Engineering; Structural engineering; Mechanics; Electrical engineering; Mathematics","score_opus":0.03681591415247316,"score_gpt":0.3056677534630357,"score_spread":0.26885183931056256,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4378640164","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9837905,0.000031832173,0.013776438,0.00006681645,0.0010421372,0.00076714443,0.00015039167,0.0002732234,0.00010150581],"genre_scores_gemma":[0.9869853,0.0004190376,0.012168008,0.0000368261,0.000024419725,0.00022494183,0.00008270482,0.00004153326,0.000017196728],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99789286,0.00021465372,0.0009807538,0.00028069824,0.00019009001,0.00044094463],"domain_scores_gemma":[0.9993405,0.00017236544,0.0001272767,0.00027265862,0.000056934376,0.000030313475],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0010175016,0.00025939845,0.00066107983,0.00013319461,0.00003255705,0.000024598585,0.00014422933,0.00019080573,0.00017824965],"category_scores_gemma":[0.00034822116,0.00025326794,0.000042549687,0.00044004805,0.00004150594,0.0014990931,0.000043561642,0.000075686396,0.000030150462],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00077367557,0.000062244355,0.0000036395584,0.00032399895,0.000006968105,0.0000071862205,0.0015480162,0.023296796,0.9717695,0.0019814405,0.0000060373713,0.00022051271],"study_design_scores_gemma":[0.0016999354,0.000059769118,0.0010035565,0.00009437016,0.000005316341,0.000001659103,0.00040952323,0.00022126072,0.98536044,0.00965421,0.001243422,0.00024651483],"about_ca_topic_score_codex":0.00009198822,"about_ca_topic_score_gemma":0.000069803624,"teacher_disagreement_score":0.023075534,"about_ca_system_score_codex":0.0002060205,"about_ca_system_score_gemma":0.000023534225,"threshold_uncertainty_score":0.99999195},"labels":[],"label_agreement":null},{"id":"W4379140827","doi":"10.1002/adma.202303193","title":"Engineering Functionalized 2D Metal‐Organic Frameworks Nanosheets with Fast Li<sup>+</sup> Conduction for Advanced Solid Li Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":112,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Office of Energy Efficiency; Central South University; Scientific Research Foundation of Hunan Provincial Education Department; Vehicle Technologies Office; Office of Science; Natural Science Foundation of Hunan Province; University of Chicago; National Natural Science Foundation of China; Argonne National Laboratory; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada","keywords":"Materials science; Electrolyte; Lithium (medication); Battery (electricity); Composite number; Chemical engineering; Ion; Ionic conductivity; Nanotechnology; Ethylene oxide; Metal-organic framework; Oxide; Energy storage; Polymer; Electrode; Physical chemistry; Organic chemistry; Composite material; Copolymer; Chemistry","score_opus":0.009304026194556073,"score_gpt":0.2244261969773205,"score_spread":0.2151221707827644,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4379140827","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.91710836,0.00022544197,0.073551625,0.00022079896,0.0026360909,0.0010125692,0.0003319436,0.004859705,0.000053443546],"genre_scores_gemma":[0.9795833,0.00048162916,0.017105825,0.000091895774,0.0003470545,0.0013497114,0.00037311853,0.00029036426,0.00037708457],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99763757,0.000024469102,0.0006354394,0.0005944081,0.00028478677,0.00082330056],"domain_scores_gemma":[0.9988527,0.000181892,0.00015016593,0.00055514614,0.00017073874,0.00008929873],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022369644,0.000598044,0.0008240873,0.00027377807,0.000200046,0.00015085778,0.00028284962,0.00039317727,0.0006677428],"category_scores_gemma":[0.00023643671,0.0005492963,0.0000879111,0.0004762151,0.00009770069,0.00093502575,0.000110838424,0.00023016427,0.00015402946],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001729446,0.00001277336,0.0000022573506,0.00031725818,0.00011462868,0.000008613325,0.00008685911,0.25462568,0.741214,0.000313806,0.00031539873,0.0028158322],"study_design_scores_gemma":[0.0014966569,0.00021530548,0.0000729494,0.0002525765,0.00007238876,0.000033302822,0.0004101789,0.0019588955,0.97043085,0.0016362282,0.02262855,0.0007921415],"about_ca_topic_score_codex":0.000001693299,"about_ca_topic_score_gemma":0.0000023229313,"teacher_disagreement_score":0.25266677,"about_ca_system_score_codex":0.00013860298,"about_ca_system_score_gemma":0.000024878353,"threshold_uncertainty_score":0.99969584},"labels":[],"label_agreement":null},{"id":"W4379209524","doi":"10.1002/adma.202303355","title":"Dendritic Solid Polymer Electrolytes: A New Paradigm for High‐Performance Lithium‐Based Batteries","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"National Key Research and Development Program of China; Fundo para o Desenvolvimento das Ciências e da Tecnologia; Chuzhou University; Fundamental Research Funds for the Central Universities; Government of Jiangsu Province; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Electrolyte; Ionic conductivity; Electrochemistry; Electrochemical window; Organic radical battery; Battery (electricity); Nanotechnology; Polymer; Chemical engineering; Electrode; Chemistry; Composite material; Physical chemistry; Physics; Thermodynamics","score_opus":0.03061166198034594,"score_gpt":0.2933059951530076,"score_spread":0.26269433317266166,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4379209524","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0010804046,0.98239386,0.0050077825,0.000053820128,0.00381262,0.002151053,0.0012077008,0.004265633,0.000027122334],"genre_scores_gemma":[0.00091233,0.9907123,0.003268037,0.0000678945,0.00065799773,0.0026050403,0.0006247323,0.0005647349,0.0005869212],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99651396,0.000044426073,0.00133104,0.00071157224,0.00024516712,0.0011538442],"domain_scores_gemma":[0.99828553,0.00033002964,0.00034816866,0.00087157945,0.000047037924,0.00011765679],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020326463,0.0010866981,0.002979662,0.0003630288,0.00014543528,0.00021165788,0.00068430346,0.000571278,0.00014823255],"category_scores_gemma":[0.00011015767,0.0009693502,0.00023553429,0.00035850142,0.0000964955,0.0004024997,0.00010947608,0.00021493062,0.0003483875],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011864653,0.000044571836,1.3841195e-7,0.13657756,0.00065878517,0.00004338877,0.000026286045,0.00093733706,0.07462799,0.002072642,0.0043310574,0.7805616],"study_design_scores_gemma":[0.00055569765,0.00020051675,6.133084e-7,0.010554328,0.00040097712,0.000023029306,0.000004095349,0.000013468028,0.41542363,0.0019477719,0.56963915,0.0012367056],"about_ca_topic_score_codex":0.000006356364,"about_ca_topic_score_gemma":0.000004004109,"teacher_disagreement_score":0.7793249,"about_ca_system_score_codex":0.00022268922,"about_ca_system_score_gemma":0.00017643887,"threshold_uncertainty_score":0.9992757},"labels":[],"label_agreement":null},{"id":"W4379599966","doi":"10.1002/adma.202301531","title":"Flowthrough Capture of Microplastics through Polyphenol‐Mediated Interfacial Interactions on Wood Sawdust","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Microplastics and Plastic Pollution","field":"Environmental Science","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Natural Science Foundation of Sichuan Province; State Key Laboratory of Polymer Materials Engineering; Sichuan University; Canada Foundation for Innovation; National Natural Science Foundation of China; Canada Excellence Research Chairs, Government of Canada","keywords":"Microplastics; Materials science; Sawdust; Polyphenol; Chemical engineering; Nanotechnology; Environmental chemistry; Composite material; Organic chemistry; Chemistry","score_opus":0.012806067198944065,"score_gpt":0.24675301234705296,"score_spread":0.2339469451481089,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4379599966","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99004513,0.0000074805394,0.0028227651,0.00013441403,0.0027286715,0.00020981481,0.00095538516,0.000114273986,0.0029820888],"genre_scores_gemma":[0.9973735,0.000053085147,0.0016509722,0.00012695364,0.00009471958,0.000016520557,0.00013144405,0.000028797354,0.00052398985],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986146,0.000049269816,0.00040266317,0.000313902,0.00026809686,0.0003514601],"domain_scores_gemma":[0.99925864,0.00023585773,0.00018564308,0.0002368211,0.000021174494,0.000061851795],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00011959889,0.00021057154,0.00027227224,0.000055647037,0.00010890536,0.000025401889,0.000180997,0.00009376975,0.003623353],"category_scores_gemma":[0.00036101087,0.00018997745,0.000045440738,0.00034517772,0.00014868203,0.00019204509,0.00015955466,0.000116235075,0.0029300756],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015338189,0.000064619926,0.00005290783,0.000018190263,0.000016872491,0.000008168809,0.00045913114,0.0030470272,0.99080884,0.0003605146,0.00465076,0.00035957366],"study_design_scores_gemma":[0.0007975579,0.00020682388,0.002718291,0.0001239027,0.000035866746,0.000012487043,0.00024011907,0.00016248859,0.96262,0.001265422,0.03147511,0.00034193086],"about_ca_topic_score_codex":0.00020277745,"about_ca_topic_score_gemma":0.000110150424,"teacher_disagreement_score":0.028188854,"about_ca_system_score_codex":0.00013376099,"about_ca_system_score_gemma":0.00001882558,"threshold_uncertainty_score":0.99784625},"labels":[],"label_agreement":null},{"id":"W4380422444","doi":"10.1002/adma.202303301","title":"Mechanoresponsive Drug Release from a Flexible, Tissue‐Adherent, Hybrid Hydrogel Actuator","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Dental and Craniofacial Research; National Heart, Lung, and Blood Institute; National Institute on Aging; National Institutes of Health; Massachusetts Institute of Technology","keywords":"Actuator; Materials science; Drug delivery; Soft robotics; Biomedical engineering; Self-healing hydrogels; Nanotechnology; Computer science; Engineering","score_opus":0.011081783787962521,"score_gpt":0.23758239520583496,"score_spread":0.22650061141787245,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4380422444","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99017453,0.00013220095,0.001185995,0.00003834773,0.0029350573,0.00033478174,0.0009097581,0.003665757,0.00062356744],"genre_scores_gemma":[0.9905019,0.00046652646,0.0055626957,0.00010076399,0.0004682549,0.00021603107,0.00056106714,0.00021628028,0.0019064748],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978414,0.000073527524,0.00057248375,0.0004973333,0.00031325914,0.0007019852],"domain_scores_gemma":[0.9987589,0.00024245954,0.00011629398,0.0005886322,0.000081932696,0.00021177785],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00023041302,0.0004503205,0.0006099032,0.0001843592,0.0001297061,0.000102648395,0.00029638095,0.000090256,0.00091961556],"category_scores_gemma":[0.0003356529,0.0004601492,0.00006293138,0.0002990649,0.000047324396,0.00041593498,0.00011114882,0.000095541654,0.0021255056],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012409515,0.000010799807,0.000001001367,0.000065661516,0.00004220165,0.00012601935,0.000114833296,0.021609819,0.9718524,0.00030152776,0.0026714972,0.0030801091],"study_design_scores_gemma":[0.00064494595,0.000027943506,0.000054161217,0.00010541195,0.000027306969,0.000009346726,0.00006281296,0.00018302121,0.9597882,0.013520596,0.025066799,0.0005094755],"about_ca_topic_score_codex":0.00007897877,"about_ca_topic_score_gemma":0.00001173987,"teacher_disagreement_score":0.022395302,"about_ca_system_score_codex":0.00010702917,"about_ca_system_score_gemma":0.000025348429,"threshold_uncertainty_score":0.9999937},"labels":[],"label_agreement":null},{"id":"W4380576704","doi":"10.1002/adma.202301114","title":"Separating Crystal Growth from Nucleation Enables the In Situ Controllable Synthesis of Nanocrystals for Efficient Perovskite Light‐Emitting Diodes","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Peking University; National Key Research and Development Program of China; University of Toronto; Tsinghua University; National Natural Science Foundation of China","keywords":"Materials science; Passivation; Nucleation; Photoluminescence; Light-emitting diode; Perovskite (structure); Quantum yield; Nanocrystal; Quantum efficiency; Crystallization; Chemical engineering; Luminescence; Crystal growth; Optoelectronics; Nanotechnology; Crystallography; Optics; Chemistry; Organic chemistry","score_opus":0.007503719958472345,"score_gpt":0.22385379220822768,"score_spread":0.21635007224975533,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4380576704","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972009,0.000095469884,0.0006408253,0.00011204632,0.0002040026,0.0006251795,0.00052651693,0.00020432354,0.00039074974],"genre_scores_gemma":[0.9976903,0.00005611695,0.0013262016,0.000012827612,0.00011364371,0.0006515013,0.00008057786,0.000048554233,0.000020254038],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987435,0.00004611216,0.0005553314,0.00021258932,0.00013868284,0.00030381046],"domain_scores_gemma":[0.9990632,0.0004723415,0.00013833406,0.00022044766,0.00007763122,0.000028028004],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00052420876,0.00017176369,0.00039128793,0.00007710642,0.00014362697,0.000086382104,0.0001669495,0.00008531767,0.000034745368],"category_scores_gemma":[0.00026608483,0.00013834622,0.000050915773,0.00021964726,0.000026813495,0.00011823877,0.00004480419,0.000037855665,0.000012206354],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024911886,0.000013159981,0.000012764226,0.00012542885,0.00001965772,4.856753e-7,0.00031395815,0.02798677,0.970568,0.0005559316,0.000100923164,0.00027800116],"study_design_scores_gemma":[0.00041082103,0.000012569502,0.00051839295,0.00015141258,0.000017918857,3.5393919e-7,0.00034571977,0.0020560175,0.99451756,0.0010831411,0.0007332083,0.00015286263],"about_ca_topic_score_codex":0.000060846363,"about_ca_topic_score_gemma":0.00002566591,"teacher_disagreement_score":0.025930753,"about_ca_system_score_codex":0.000052577165,"about_ca_system_score_gemma":0.000010533266,"threshold_uncertainty_score":0.5641595},"labels":[],"label_agreement":null},{"id":"W4380730502","doi":"10.1002/adma.202302178","title":"Molecular Structure and Conformational Design of Donor‐Acceptor Conjugated Polymers to Enable Predictable Optoelectronic Property","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Oak Ridge National Laboratory; Basic Energy Sciences; Natural Sciences and Engineering Research Council of Canada; Office of Science; Government of Ontario; Office of Integrative Activities; U.S. Department of Energy; National Science Foundation","keywords":"Materials science; Band gap; Conjugated system; Acceptor; Polymer; Optoelectronics; Molecular orbital; HOMO/LUMO; Chemical physics; Molecule; Chemistry; Condensed matter physics; Physics","score_opus":0.005042743464686722,"score_gpt":0.19760348133490988,"score_spread":0.19256073787022315,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4380730502","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966934,0.00025643187,0.0016640563,0.000038768998,0.00021811326,0.0005491167,0.00019706695,0.00022768493,0.0001553872],"genre_scores_gemma":[0.99867785,0.00020038364,0.00077771465,0.000055812314,0.000022359434,0.000036087535,0.00007811561,0.00003992859,0.00011172527],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99909526,0.000019247684,0.0002511008,0.00013438016,0.00014514895,0.0003548817],"domain_scores_gemma":[0.9996643,0.000023419225,0.00004065233,0.00014095972,0.00005958395,0.000071085626],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013607235,0.00014738561,0.00022482593,0.00007760501,0.000039860595,0.000033779885,0.00010387348,0.00006757445,0.0003583378],"category_scores_gemma":[0.000029582814,0.000120844226,0.00001304953,0.0002373074,0.000018618997,0.00016023511,0.0000348466,0.000057805843,0.000013325299],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037703598,0.0000025897375,0.0000019016339,0.000089492314,0.000036481855,9.564161e-7,0.00008671519,0.048181973,0.9505439,0.00039862123,0.0003808572,0.00023885438],"study_design_scores_gemma":[0.00036302995,0.00012837442,0.000014959748,0.00001874441,0.000011467144,0.000004053413,0.000016759634,0.0020597419,0.9940051,0.00074845,0.0024764985,0.00015284371],"about_ca_topic_score_codex":0.000015677151,"about_ca_topic_score_gemma":0.0000018771229,"teacher_disagreement_score":0.04612223,"about_ca_system_score_codex":0.00006233916,"about_ca_system_score_gemma":0.00007293787,"threshold_uncertainty_score":0.49278846},"labels":[],"label_agreement":null},{"id":"W4381598168","doi":"10.1002/adma.202302987","title":"Light‐Driven Self‐Oscillation of Thermoplasmonic Nanocolloids","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Ministerio de Ciencia e Innovación; Agencia Estatal de Investigación; Eusko Jaurlaritza","keywords":"Materials science; Oscillation (cell signaling); Bistability; Nanotechnology; Soft matter; Plasmon; Dissipation; Nanoparticle; Attractor; Nonlinear system; Plasmonic nanoparticles; Photonics; Belousov–Zhabotinsky reaction; Colloid; Optoelectronics; Physics","score_opus":0.011779819241647026,"score_gpt":0.24798797693573893,"score_spread":0.2362081576940919,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4381598168","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99814045,0.000020294645,0.000014893746,0.00022586621,0.00029089706,0.0002817725,0.000045449167,0.00027642216,0.0007039632],"genre_scores_gemma":[0.99805194,0.00006674582,0.0015120031,0.000022526809,0.0000442895,0.00010931037,0.0000069596545,0.000016735337,0.00016950013],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989406,0.000050055412,0.00033848762,0.00022443845,0.00021010882,0.00023631996],"domain_scores_gemma":[0.9993643,0.000072651645,0.00015452126,0.00028353857,0.00007952761,0.00004541543],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003220729,0.00010648129,0.00022460292,0.000056723282,0.00010583181,0.00003631825,0.00017370586,0.000047092406,0.00043679317],"category_scores_gemma":[0.000044949604,0.000087739274,0.000040522656,0.00025745967,0.00002389873,0.00015516455,0.00006037825,0.000015797179,0.0007805544],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015317266,0.000030931085,0.00006966949,0.000022311695,0.000003962406,6.9982104e-7,0.00015898647,0.00012862243,0.9959401,0.0029153216,0.0002011483,0.0005129385],"study_design_scores_gemma":[0.00021504138,0.00003424013,0.0014180064,0.000025755342,0.000011620329,9.694018e-7,0.00005710233,0.000023881754,0.9908696,0.001223187,0.0060145245,0.00010608691],"about_ca_topic_score_codex":0.0000072278053,"about_ca_topic_score_gemma":0.000002352454,"teacher_disagreement_score":0.005813376,"about_ca_system_score_codex":0.000024837582,"about_ca_system_score_gemma":0.00003146881,"threshold_uncertainty_score":0.99999744},"labels":[],"label_agreement":null},{"id":"W4381598405","doi":"10.1002/adma.202304685","title":"Bilayer Zwitterionic Metal‐Organic Framework for Selective All‐Solid‐State Superionic Conduction in Lithium Metal Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Natural Science Foundation of China; Natural Science Foundation of Guangzhou City","keywords":"Materials science; Lithium metal; Lithium (medication); Metal; Bilayer; Solid-state; Metal-organic framework; Fast ion conductor; Thermal conduction; Inorganic chemistry; Nanotechnology; Electrode; Engineering physics; Organic chemistry; Physical chemistry; Adsorption; Anode; Metallurgy; Composite material; Electrolyte; Membrane","score_opus":0.02177919847477189,"score_gpt":0.29315552969343145,"score_spread":0.27137633121865956,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4381598405","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98188156,0.00017882933,0.009027485,0.00022315196,0.005958345,0.0013216868,0.00033089338,0.0010462567,0.00003181021],"genre_scores_gemma":[0.98589736,0.00047066496,0.01082656,0.00027589858,0.00029714545,0.0014142958,0.00023872,0.00025638918,0.00032295324],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970412,0.00012568674,0.00095274695,0.00062326196,0.00028786727,0.0009691954],"domain_scores_gemma":[0.9989057,0.00023133594,0.00015614988,0.0005055038,0.000116386625,0.00008490943],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0006492143,0.0005309329,0.00088183326,0.00034169544,0.0001204864,0.00014895765,0.0003011471,0.00019479479,0.00069824874],"category_scores_gemma":[0.0002973386,0.0005460202,0.00007609757,0.0005769115,0.00009310965,0.001046477,0.0001324422,0.0001678439,0.00039048094],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014075976,0.000024224792,0.000016983146,0.00025341657,0.00014324317,0.0000119998485,0.000543555,0.0054278793,0.99240166,0.00045589762,0.00026119954,0.00031915432],"study_design_scores_gemma":[0.000788314,0.00013411626,0.00040064298,0.00012060223,0.00005073777,0.000016367583,0.00017259306,0.000034362285,0.9546649,0.03914505,0.003881339,0.00059097103],"about_ca_topic_score_codex":0.000006463593,"about_ca_topic_score_gemma":0.000014847094,"teacher_disagreement_score":0.03868915,"about_ca_system_score_codex":0.000379664,"about_ca_system_score_gemma":0.00004117992,"threshold_uncertainty_score":0.9996991},"labels":[],"label_agreement":null},{"id":"W4381598922","doi":"10.1002/adma.202303416","title":"Roll‐to‐Roll Printing of Anomalous Nernst Thermopile for Direct Sensing of Perpendicular Heat Flux","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Thermoelectric Materials and Devices","field":"Materials Science","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"JST-Mirai Program; Division of Materials Research; Japan Society for the Promotion of Science; Core Research for Evolutional Science and Technology; University of Tokyo; Canadian Institute for Advanced Research","keywords":"Thermopile; Nernst effect; Materials science; Nernst equation; Perpendicular; Flux (metallurgy); Heat flux; Thermoelectric effect; Optoelectronics; Nanotechnology; Mechanics; Thermodynamics; Optics; Heat transfer; Metallurgy; Electrode; Physics","score_opus":0.011982475323183391,"score_gpt":0.2695865660017606,"score_spread":0.2576040906785772,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4381598922","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9934189,0.00012889187,0.0021988705,0.000042800024,0.0013690417,0.001056794,0.00035244058,0.00024971904,0.0011825763],"genre_scores_gemma":[0.9836915,0.000039128427,0.015558157,0.00006689459,0.00018032348,0.00007299375,0.000044861892,0.00007664511,0.00026950665],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99736035,0.00013951879,0.0009309267,0.0005560131,0.00037549212,0.0006377299],"domain_scores_gemma":[0.99835414,0.00031312965,0.0004357999,0.0005194636,0.00027580227,0.00010165775],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0012545623,0.0003080802,0.0009663313,0.00018601699,0.00014834011,0.000057754394,0.0003279617,0.000099722405,0.00042308253],"category_scores_gemma":[0.00047405533,0.0002671932,0.00011759137,0.0003954167,0.00007984292,0.00024296495,0.00018925018,0.000032011405,0.00008974746],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037862532,0.00002828467,0.000015918346,0.0003745614,0.00001889374,0.000007347962,0.00024636826,0.0018762425,0.99475944,0.0003514743,0.00004889144,0.0018939748],"study_design_scores_gemma":[0.00069145905,0.0002507982,0.00026708227,0.00018871254,0.00003200678,0.000007146777,0.00010357452,0.00008652459,0.9937289,0.0022669206,0.002092088,0.00028483476],"about_ca_topic_score_codex":0.00008667414,"about_ca_topic_score_gemma":0.000007475262,"teacher_disagreement_score":0.013359287,"about_ca_system_score_codex":0.000046511526,"about_ca_system_score_gemma":0.000060411636,"threshold_uncertainty_score":0.999978},"labels":[],"label_agreement":null},{"id":"W4382011403","doi":"10.1002/adma.202302641","title":"Advancing In Situ Food Monitoring through a Smart Lab‐in‐a‐Package System Demonstrated by the Detection of <i>Salmonella</i> in Whole Chicken","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Biosensors and Analytical Detection","field":"Engineering","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Salmonella; Contamination; Nanotechnology; Complex matrix; Microfluidics; Food processing; Materials science; Process engineering; Computer science; Food science; Biology; Engineering; Chemistry; Chromatography; Bacteria","score_opus":0.007820921916484331,"score_gpt":0.21692067193364775,"score_spread":0.2090997500171634,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382011403","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99800825,0.00024017265,0.00042073237,0.000026427331,0.00057699095,0.00025789542,0.000026915674,0.00020308736,0.0002395492],"genre_scores_gemma":[0.999601,0.00013367542,0.000110561836,0.0000032585988,0.00004481707,0.000050838717,0.000006397292,0.000033889184,0.000015554055],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878985,0.000070394075,0.00047780288,0.00019263191,0.00013565859,0.00033365487],"domain_scores_gemma":[0.99965376,0.00007406869,0.000060329498,0.00016622544,0.000021096715,0.000024519037],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037488225,0.00015544752,0.0003104903,0.000114287126,0.000029900648,0.000023912798,0.0000881966,0.00010867762,0.0000015925322],"category_scores_gemma":[0.00005059072,0.00013658247,0.000029402152,0.0007725446,0.00002142543,0.0002139989,0.00002600547,0.0001395203,0.000015942816],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024981216,0.00000983265,0.00021025648,0.00020306416,0.0000066838033,0.0000076143324,0.00012637104,0.00994448,0.98843014,0.000013326517,0.000004331098,0.0010188962],"study_design_scores_gemma":[0.00048170832,0.000045660498,0.0036657627,0.00036610148,0.000005277279,0.0000039373235,0.0007920925,0.001125103,0.99310386,0.00015802072,0.00011378407,0.00013871182],"about_ca_topic_score_codex":0.00013203583,"about_ca_topic_score_gemma":0.00042140257,"teacher_disagreement_score":0.008819376,"about_ca_system_score_codex":0.0001629326,"about_ca_system_score_gemma":0.0000061990618,"threshold_uncertainty_score":0.55696714},"labels":[],"label_agreement":null},{"id":"W4382011723","doi":"10.1002/adma.202303535","title":"PAF‐6 Doped with Phosphoric Acid through Alkaline Nitrogen Atoms Boosting High‐Temperature Proton‐Exchange Membranes for High Performance of Fuel Cells","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Fuel Cells and Related Materials","field":"Engineering","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Materials science; Membrane; Phosphoric acid; Proton exchange membrane fuel cell; Chemical engineering; Proton transport; Protonation; Alkaline fuel cell; Ion exchange; Chemistry; Organic chemistry; Ion","score_opus":0.0067344718268175915,"score_gpt":0.20302275963750216,"score_spread":0.19628828781068458,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382011723","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9917094,0.0026911262,0.000022295568,0.000033419852,0.00199179,0.0021189859,0.0005847475,0.0006827295,0.00016549315],"genre_scores_gemma":[0.9770418,0.015532796,0.005312912,0.00003601291,0.00030447982,0.0009623087,0.00036347183,0.00018445597,0.00026175453],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99805397,0.00003318994,0.0006323104,0.00038768598,0.00027627437,0.00061656174],"domain_scores_gemma":[0.9990828,0.00006804722,0.00021203872,0.00038826859,0.00017955118,0.00006926918],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00031594024,0.0004407524,0.0007720672,0.000093715724,0.00011621837,0.000066276,0.00024732304,0.00025549807,0.00022965264],"category_scores_gemma":[0.0000213777,0.0003399899,0.000056975685,0.0004127215,0.00006602539,0.00039199338,0.00006949464,0.00010279877,0.00007742229],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00042754077,0.000022092265,0.0000044509784,0.02076746,0.000116741496,0.000012573597,0.00026221754,0.012070744,0.9659775,0.000036380337,0.0002107338,0.00009159689],"study_design_scores_gemma":[0.0017403958,0.00031345017,0.000010290376,0.00038922724,0.00007607823,0.000008069317,0.00005672129,0.000111026864,0.9882379,0.0006992642,0.007902968,0.00045457645],"about_ca_topic_score_codex":0.000036580146,"about_ca_topic_score_gemma":0.0000024998478,"teacher_disagreement_score":0.022260463,"about_ca_system_score_codex":0.00005406021,"about_ca_system_score_gemma":0.00002977774,"threshold_uncertainty_score":0.9999052},"labels":[],"label_agreement":null},{"id":"W4382344148","doi":"10.1002/adma.202302575","title":"Closed‐Loop Error‐Correction Learning Accelerates Experimental Discovery of Thermoelectric Materials","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"King Abdullah University of Science and Technology; University of Toronto; Compute Canada; Northwestern University","keywords":"Thermoelectric effect; Materials science; Thermoelectric materials; Doping; Loop (graph theory); Throughput; Degrees of freedom (physics and chemistry); Characterization (materials science); Computer science; Nanotechnology; Optoelectronics; Physics; Thermodynamics; Mathematics","score_opus":0.016091891096826984,"score_gpt":0.29976806243430093,"score_spread":0.28367617133747397,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382344148","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99019986,0.00009280404,0.00026764505,0.00006958139,0.007286176,0.0005555744,0.00007926847,0.00083754165,0.00061152363],"genre_scores_gemma":[0.9950228,0.00007698857,0.0012013019,0.00006253762,0.00031261327,0.00019363691,0.00010168969,0.000099217024,0.0029292486],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9955881,0.00071205484,0.0010897643,0.00089339,0.00079296203,0.00092370907],"domain_scores_gemma":[0.998001,0.00030280874,0.0008396478,0.0005766449,0.00018048148,0.00009941278],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0022984848,0.00047706725,0.0008590275,0.00035161374,0.0003944628,0.0004976693,0.00075413234,0.00014280053,0.004701527],"category_scores_gemma":[0.0008749507,0.0004255249,0.00008700841,0.00083930267,0.00025932968,0.0013880306,0.00040705735,0.0001438586,0.0011954614],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003431374,0.00006971442,0.00010615034,0.00009008913,0.000009545573,0.000012757247,0.00037281762,0.005023322,0.9928983,0.00033904932,0.00040737906,0.0003277822],"study_design_scores_gemma":[0.00054613076,0.00038222122,0.0022434082,0.00010981581,0.000017433445,0.00001692485,0.00035858044,0.0001706431,0.9949893,0.00034990854,0.00035221508,0.00046344794],"about_ca_topic_score_codex":0.00026786313,"about_ca_topic_score_gemma":0.0000049409336,"teacher_disagreement_score":0.0069735628,"about_ca_system_score_codex":0.00013929367,"about_ca_system_score_gemma":0.00010714878,"threshold_uncertainty_score":0.99981964},"labels":[],"label_agreement":null},{"id":"W4382344317","doi":"10.1002/adma.202207816","title":"Ferroelectric Switching at Symmetry‐Broken Interfaces by Local Control of Dislocations Networks","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Engineering and Physical Sciences Research Council","keywords":"Ferroelectricity; Materials science; Condensed matter physics; Electric field; Bilayer; Polarization (electrochemistry); Dislocation; Scanning tunneling microscope; Nanotechnology; Optoelectronics; Dielectric; Membrane; Composite material","score_opus":0.006339585745092075,"score_gpt":0.2469640966394791,"score_spread":0.24062451089438702,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382344317","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94560814,0.00023476228,0.051656254,0.00032732816,0.00078415655,0.0005033545,0.00042207024,0.00031825373,0.00014568826],"genre_scores_gemma":[0.9984071,0.00017513806,0.00046220937,0.00010031318,0.00010004484,0.00029324077,0.0001234423,0.00004552091,0.00029299434],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979443,0.00012249511,0.000693324,0.00044143,0.0002817602,0.000516683],"domain_scores_gemma":[0.9987293,0.00021910739,0.0003657327,0.00045962032,0.00012678704,0.000099476034],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00066461856,0.00023778042,0.0005020308,0.000103780105,0.00022727734,0.00009156838,0.0004090057,0.00010320321,0.00074676774],"category_scores_gemma":[0.000113205664,0.00021183844,0.00004918134,0.00045886912,0.000110171975,0.00025490895,0.00017465373,0.00005113912,0.0005229368],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008434585,0.000039510775,0.000020044306,0.000046437402,0.000011702166,9.756909e-7,0.000066626446,0.0024729483,0.99282753,0.0013460136,0.0018447719,0.0012390639],"study_design_scores_gemma":[0.00057404727,0.00006867495,0.00023401609,0.000045414698,0.000031322452,0.000004019822,0.00008447468,0.0006860282,0.9952176,0.001108827,0.0017166804,0.00022890167],"about_ca_topic_score_codex":0.000084642765,"about_ca_topic_score_gemma":0.00001905622,"teacher_disagreement_score":0.052798964,"about_ca_system_score_codex":0.000107331354,"about_ca_system_score_gemma":0.000032000953,"threshold_uncertainty_score":0.8638521},"labels":[],"label_agreement":null},{"id":"W4382797645","doi":"10.1002/adma.202303740","title":"Liquid Crystal Networks Meet Water: It's Complicated!","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"European Research Council; Natural Sciences and Engineering Research Council of Canada; Academy of Finland; European Commission","keywords":"Soft robotics; Materials science; Morphing; Adaptability; Robot; Self-healing hydrogels; Robotics; Computer science; Artificial intelligence; Nanotechnology; Ecology","score_opus":0.0404330109918614,"score_gpt":0.3016733704001362,"score_spread":0.2612403594082748,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382797645","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000044165914,0.9804878,0.0050212042,0.000009715532,0.008608385,0.0016206641,0.0008687328,0.0028267705,0.00051255117],"genre_scores_gemma":[0.0000817538,0.99495775,0.00087322766,0.000039723775,0.0008632006,0.000854034,0.0013792804,0.0006614121,0.0002896461],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9963448,0.00010377265,0.0014644013,0.0006792328,0.0002766495,0.0011311481],"domain_scores_gemma":[0.9985064,0.000100438294,0.00023097332,0.00087713747,0.00008217419,0.00020283615],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00043602963,0.0010423154,0.0030676287,0.00018226083,0.00012320343,0.0001485802,0.00061465276,0.00051839335,0.00033034346],"category_scores_gemma":[0.000038302405,0.0008069183,0.00029968075,0.00023292725,0.00004196072,0.00024568904,0.00032526534,0.00022324247,0.00081724575],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022862018,0.00012393035,2.6523548e-9,0.17844102,0.0017465029,0.00058477046,0.00015619294,0.050640814,0.3290957,0.0054649333,0.016678102,0.41683942],"study_design_scores_gemma":[0.00020106272,0.00007418359,3.494409e-9,0.006305908,0.00029259527,0.00004695069,0.000007497595,0.00003216517,0.01836636,0.00042975752,0.97326684,0.0009766506],"about_ca_topic_score_codex":0.0000034541538,"about_ca_topic_score_gemma":0.000005463985,"teacher_disagreement_score":0.95658875,"about_ca_system_score_codex":0.00024430305,"about_ca_system_score_gemma":0.00003714788,"threshold_uncertainty_score":0.9999607},"labels":[],"label_agreement":null},{"id":"W4384008721","doi":"10.1002/adma.202300665","title":"Engineered Nanomaterials to Potentiate CRISPR/Cas9 Gene Editing for Cancer Therapy","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CRISPR and Genetic Engineering","field":"Biochemistry, Genetics and Molecular Biology","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; McGill University Health Centre","funders":"Guangdong Provincial Pearl River Talents Program; National Key Research and Development Program of China; Youth Innovation Promotion Association of the Chinese Academy of Sciences; China Primary Health Care Foundation; National Natural Science Foundation of China","keywords":"CRISPR; Genome editing; Cas9; Genetic enhancement; Computational biology; Nanomedicine; Viral vector; Biology; Gene; Nanotechnology; Computer science; Materials science; Genetics","score_opus":0.0374894983717245,"score_gpt":0.4035128304552069,"score_spread":0.3660233320834824,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4384008721","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.002185075,0.9812072,0.005994141,0.00001795164,0.0055452604,0.00237212,0.0025404785,0.0001254708,0.000012289016],"genre_scores_gemma":[0.00020941727,0.9867386,0.004323153,0.00006651475,0.0031941356,0.0030267164,0.0013667378,0.00030918387,0.000765541],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9976078,0.00005948493,0.0007890263,0.00076260004,0.00016069895,0.0006203793],"domain_scores_gemma":[0.99886084,0.00003720362,0.00025832848,0.0005588972,0.0001463281,0.00013838023],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040435852,0.0006098186,0.0013719895,0.0001294214,0.0000880962,0.000093556715,0.00038159877,0.00036866535,0.000057358102],"category_scores_gemma":[0.00020585267,0.00055449666,0.000312859,0.00014451126,0.000015993162,0.0000052805863,0.00017397606,0.000050188726,0.000046132347],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003711821,0.000010660708,2.6133419e-8,0.0039645024,0.00023616674,0.00000444612,0.000011810564,0.0003094044,0.83927035,0.0000069124144,0.00094367086,0.1552049],"study_design_scores_gemma":[0.00022580402,0.000078617355,3.0892522e-7,0.00089719077,0.000089693815,0.000010034159,0.0000032305768,3.472292e-7,0.45319414,0.000009009106,0.5451382,0.0003534477],"about_ca_topic_score_codex":0.000010598823,"about_ca_topic_score_gemma":0.000004747636,"teacher_disagreement_score":0.5441945,"about_ca_system_score_codex":0.00004656498,"about_ca_system_score_gemma":0.000118011034,"threshold_uncertainty_score":0.99969065},"labels":[],"label_agreement":null},{"id":"W4384281966","doi":"10.1002/adma.202303528","title":"Molecular‐Additive‐Assisted Tellurium Homogenization in ZnSeTe Quantum Dots","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Huawei Technologies (Canada); University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Photoluminescence; Quantum dot; Nucleation; Anhydrous; Aqueous solution; Spectroscopy; Absorption spectroscopy; Analytical Chemistry (journal); Chemical engineering; Nanotechnology; Optoelectronics; Physical chemistry; Organic chemistry; Chemistry","score_opus":0.018069335532831438,"score_gpt":0.25533803672725053,"score_spread":0.2372687011944191,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4384281966","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966829,0.00018270109,0.00016053078,0.00026355957,0.0011910258,0.00036347564,0.00021067036,0.00036985305,0.00057527865],"genre_scores_gemma":[0.9985137,0.00022998097,0.00049120386,0.00013445411,0.000077914156,0.000165129,0.00009192102,0.000054562195,0.0002411473],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99780667,0.00026645602,0.0005483613,0.00048062368,0.0003632771,0.00053461845],"domain_scores_gemma":[0.9991433,0.00011165239,0.00017901737,0.00037797214,0.0001166324,0.00007142482],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0008346855,0.0002422137,0.00040600484,0.00020826216,0.000118339834,0.00015137758,0.00027688043,0.00010423527,0.0011748567],"category_scores_gemma":[0.00043688595,0.00020990967,0.00004839843,0.00047944416,0.00009570299,0.00039373347,0.00012115148,0.00005078015,0.001939671],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010851377,0.0000309873,0.000017200418,0.000049141756,0.0000044620338,0.00006136204,0.0001525053,0.00038701968,0.9952253,0.0013839202,0.00022322383,0.0023563493],"study_design_scores_gemma":[0.00039065644,0.000057866302,0.0028225728,0.00010145956,0.00000922415,0.000006542675,0.000109844594,0.000097852164,0.9892158,0.0019578463,0.0049326173,0.00029773745],"about_ca_topic_score_codex":0.000063225656,"about_ca_topic_score_gemma":0.000017128617,"teacher_disagreement_score":0.006009534,"about_ca_system_score_codex":0.00007060305,"about_ca_system_score_gemma":0.000053172695,"threshold_uncertainty_score":0.9997382},"labels":[],"label_agreement":null},{"id":"W4384408269","doi":"10.1002/adma.202303272","title":"Optical Enhancement of Indirect Bandgap 2D Transition Metal Dichalcogenides for Multi‐Functional Optoelectronic Sensors","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":103,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; National Research Foundation of Korea","keywords":"Photodetection; Materials science; Optoelectronics; Band gap; Heterojunction; Nanomaterials; Photodetector; Monolayer; Nanotechnology; Direct and indirect band gaps","score_opus":0.09594804583318169,"score_gpt":0.36814477587057237,"score_spread":0.2721967300373907,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4384408269","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.063043945,0.8850012,0.028008252,0.00006007448,0.0046999007,0.009438638,0.009032387,0.00065011386,0.00006552928],"genre_scores_gemma":[0.0025518006,0.972676,0.016825268,0.000018454075,0.0004996064,0.005207562,0.0016738436,0.00019301004,0.00035449682],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962833,0.00019205426,0.0015811245,0.0008519416,0.00043308653,0.00065850775],"domain_scores_gemma":[0.99799496,0.00033699034,0.0008447255,0.00048432554,0.00022882715,0.00011017207],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011569946,0.00059868454,0.0024018786,0.00019407195,0.00018553912,0.00009097376,0.00034242406,0.00031823895,0.00092396274],"category_scores_gemma":[0.00017575594,0.0005021545,0.0004517298,0.00024711716,0.00014828994,0.00019583508,0.00009236122,0.00008960227,0.00038608583],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008615623,0.00013941887,3.3721383e-9,0.009652102,0.00013732338,0.0000017210865,0.000038649694,0.000035443714,0.96960807,0.0013455269,0.0000720806,0.018883508],"study_design_scores_gemma":[0.00056133483,0.00017422403,5.7915236e-7,0.0021643464,0.000905366,0.000015743737,0.0000126092145,0.000004279387,0.8774834,0.0004810325,0.11769687,0.000500183],"about_ca_topic_score_codex":0.000012856091,"about_ca_topic_score_gemma":0.0000067574492,"teacher_disagreement_score":0.11762479,"about_ca_system_score_codex":0.00019391201,"about_ca_system_score_gemma":0.00029644495,"threshold_uncertainty_score":0.99998933},"labels":[],"label_agreement":null},{"id":"W4385295480","doi":"10.1002/adma.202301730","title":"The Challenge of Water Competition in Physical Adsorption of CO<sub>2</sub> by Porous Solids for Carbon Capture Applications – A Short Perspective","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon Dioxide Capture Technologies","field":"Engineering","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa; University of Calgary; University of Alberta","funders":"","keywords":"Perspective (graphical); Flue gas; Materials science; Adsorption; Sorbent; Competition (biology); Nanotechnology; Carbon capture and storage (timeline); Process engineering; Computer science; Waste management; Engineering; Artificial intelligence","score_opus":0.007726534691058468,"score_gpt":0.24226650323883242,"score_spread":0.23453996854777395,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385295480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99758416,0.00022733834,0.00029311993,0.00018896877,0.000109624,0.0008190212,0.00020413373,0.00034989155,0.00022375304],"genre_scores_gemma":[0.99838907,0.00040206112,0.00004560135,0.0000022996192,0.0000415881,0.0009862235,0.00009625684,0.00003348998,0.0000033849096],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99922985,0.000015743826,0.00025211973,0.00016515727,0.00012428555,0.00021282281],"domain_scores_gemma":[0.99951273,0.00007889867,0.000043178152,0.00025486114,0.000096773365,0.000013566554],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015348195,0.00013263628,0.00028669697,0.00008353853,0.000012575653,0.0000072625726,0.0001250501,0.00009625344,9.030831e-7],"category_scores_gemma":[0.00003360992,0.000100815654,0.00004360064,0.00012872611,0.000087118024,0.00005438445,0.000029372335,0.000067209156,0.0000019983695],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000033651817,0.000021742935,0.0000014237141,0.00010239667,0.000018583216,3.3978472e-7,0.00046056733,0.0018597189,0.9919361,0.00514391,0.000039820803,0.0003817838],"study_design_scores_gemma":[0.00026920694,0.000041827934,0.000047622885,0.000027322565,0.000012615438,7.157633e-7,0.00078230887,0.00024978613,0.9863281,0.011973552,0.00016016811,0.00010677605],"about_ca_topic_score_codex":0.000012775011,"about_ca_topic_score_gemma":0.00003190574,"teacher_disagreement_score":0.0068296427,"about_ca_system_score_codex":0.000116214884,"about_ca_system_score_gemma":0.00000599489,"threshold_uncertainty_score":0.4111143},"labels":[],"label_agreement":null},{"id":"W4385443379","doi":"10.1002/adma.202305784","title":"Chirality Versus Symmetry: Electron's Spin Selectivity in Nonpolar Chiral Lead–Bromide Perovskites","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Institute of Circulatory and Respiratory Health; HORIZON EUROPE Framework Programme; Grand Équipement National De Calcul Intensif; Institut Universitaire de France; Agence Nationale de la Recherche; Universite Angers; Centre National de la Recherche Scientifique; European Commission","keywords":"Spintronics; Materials science; Magnetoresistance; Rashba effect; Condensed matter physics; Topological insulator; Chirality (physics); Spin (aerodynamics); Magnetic field; Symmetry breaking; Physics; Ferromagnetism; Quantum mechanics; Spontaneous symmetry breaking","score_opus":0.011964251856996694,"score_gpt":0.2710224753079878,"score_spread":0.2590582234509911,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385443379","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959943,0.00010853571,0.00009206031,0.00010359227,0.0008691187,0.00036298105,0.00018884095,0.0009686717,0.0013118458],"genre_scores_gemma":[0.9983907,0.00019315018,0.0006076275,0.000023977813,0.00020202044,0.00024469715,0.00014829819,0.000070741946,0.0001188236],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99835664,0.000056232813,0.00040704443,0.00036630363,0.00016377674,0.0006499812],"domain_scores_gemma":[0.9994047,0.0000687639,0.000059132533,0.00036800973,0.000028919916,0.00007046783],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00042477722,0.00027689274,0.00044256018,0.00016640307,0.000086721586,0.00009301915,0.00022339265,0.00011482442,0.000107123764],"category_scores_gemma":[0.0001123044,0.00029995324,0.000050387047,0.00061806606,0.000038309903,0.00029935024,0.00006768218,0.0001214854,0.00040585003],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006789266,0.000024484443,0.00010076496,0.00008219332,0.000018412782,0.0000042274373,0.000051319643,0.001231926,0.99572515,0.0018015121,0.00025564682,0.0006364392],"study_design_scores_gemma":[0.0009825163,0.00006250836,0.018313793,0.00003134858,0.00000991105,0.0000020300772,0.000019943072,0.0001820253,0.9742049,0.0027079128,0.0031075473,0.00037556278],"about_ca_topic_score_codex":0.00008198906,"about_ca_topic_score_gemma":0.00009961783,"teacher_disagreement_score":0.021520281,"about_ca_system_score_codex":0.00019344837,"about_ca_system_score_gemma":0.000022121409,"threshold_uncertainty_score":0.9999453},"labels":[],"label_agreement":null},{"id":"W4385476547","doi":"10.1002/adma.202303867","title":"Digital Manufacturing of Functional Ready‐to‐Use Microfluidic Systems","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Additive Manufacturing and 3D Printing Technologies","field":"Engineering","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; McGill Genome Centre","funders":"","keywords":"Materials science; Microfluidics; Nanotechnology; Systems engineering; Process engineering; Engineering","score_opus":0.02161138911049413,"score_gpt":0.22130371958783396,"score_spread":0.19969233047733984,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385476547","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9936418,0.00007806989,0.0019104709,0.00001932189,0.0011950067,0.00016880863,0.00031921707,0.002180252,0.0004870376],"genre_scores_gemma":[0.99878174,0.00019072474,0.00023156317,0.000006301655,0.000056013072,0.00004711136,0.00008178551,0.000042285028,0.0005624468],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991444,0.000008090139,0.00026853496,0.00017511228,0.00014486356,0.0002590405],"domain_scores_gemma":[0.99952596,0.0001003343,0.000043515218,0.00025734224,0.00003616345,0.000036708057],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010150669,0.00015454376,0.00023394114,0.00018412294,0.00003918023,0.00007972139,0.00013365647,0.00006719829,0.000028309274],"category_scores_gemma":[0.00012904497,0.0001496348,0.000027562464,0.00010444192,0.00003143756,0.00022644302,0.000109557855,0.000053962725,0.00034669793],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021228409,0.000005523322,0.000026562155,0.00020989994,0.000041218485,0.000010196594,0.000026484442,0.011317609,0.9700806,0.00034530045,0.00936052,0.008554844],"study_design_scores_gemma":[0.00010987727,0.000018940329,0.0035183525,0.00008544131,0.000004312093,0.0000035806456,0.00007492567,0.000011164999,0.96772903,0.00032460122,0.027960725,0.0001590711],"about_ca_topic_score_codex":0.000007260116,"about_ca_topic_score_gemma":1.7570436e-7,"teacher_disagreement_score":0.018600205,"about_ca_system_score_codex":0.000050374943,"about_ca_system_score_gemma":0.0000048796696,"threshold_uncertainty_score":0.61019295},"labels":[],"label_agreement":null},{"id":"W4385513927","doi":"10.1002/adma.202304751","title":"Flexible Carbon Nanotube‐Epitaxially Grown Nanocrystals for Micro‐Thermoelectric Modules","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Thermoelectric Materials and Devices","field":"Materials Science","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Particle Physics","funders":"National Natural Science Foundation of China","keywords":"Materials science; Carbon nanotube; Thermoelectric effect; Microelectronics; Optoelectronics; Epitaxy; Thermal conductivity; Nanotechnology; Thermoelectric materials; Composite material","score_opus":0.01325846865595479,"score_gpt":0.2592018954006,"score_spread":0.24594342674464523,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385513927","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99040914,0.00055616745,0.001843151,0.00017453241,0.0027150388,0.0014883722,0.00048077616,0.0014922014,0.0008406424],"genre_scores_gemma":[0.9875197,0.00034683032,0.008059221,0.00024179483,0.00059947616,0.0009418316,0.0001488996,0.00018007496,0.0019621856],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99582696,0.00018049307,0.0009950972,0.0010366453,0.00052822445,0.0014325846],"domain_scores_gemma":[0.99789155,0.00034424325,0.00052729604,0.0007289344,0.00032645083,0.00018154537],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0013356486,0.0005844459,0.00096206425,0.00032336698,0.0003901334,0.00027719556,0.00068893423,0.00022629542,0.00069025945],"category_scores_gemma":[0.00041417332,0.0005245959,0.00014570958,0.00076068286,0.000117929274,0.00050688646,0.00018753266,0.000069317786,0.00043618647],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00050350407,0.00004687488,0.0000037452137,0.00023187532,0.000026225558,0.00001380111,0.00011137277,0.00028639624,0.99222475,0.002540585,0.0003602061,0.003650683],"study_design_scores_gemma":[0.0012065683,0.0003181753,0.00014098988,0.00007455203,0.00004496819,0.000016597725,0.00004536408,0.000038140268,0.9638385,0.023834996,0.009771687,0.0006694677],"about_ca_topic_score_codex":0.00009432707,"about_ca_topic_score_gemma":0.00001385189,"teacher_disagreement_score":0.028386237,"about_ca_system_score_codex":0.0001527589,"about_ca_system_score_gemma":0.00012939573,"threshold_uncertainty_score":0.9997206},"labels":[],"label_agreement":null},{"id":"W4385550009","doi":"10.1002/adma.202370217","title":"Life‐Cycle Assessment of Ti<sub>3</sub>C<sub>2</sub>T<i><sub>x</sub></i> MXene Synthesis (Adv. Mater. 31/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Life-cycle assessment; Materials science; Industrialisation; Electromagnetic shielding; Energy demand; Interface (matter); Nanotechnology; Composite material; Natural resource economics; Production (economics); Political science","score_opus":0.014791422464933484,"score_gpt":0.27635724668521633,"score_spread":0.26156582422028285,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385550009","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848699,0.00016550797,0.00030202765,0.00052357494,0.0070501543,0.0019287722,0.0031643158,0.0012339164,0.0007618224],"genre_scores_gemma":[0.9919918,0.0022133943,0.0016279216,0.00079664245,0.0010212177,0.0014845947,0.0004162837,0.00038321145,0.000064896165],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9894889,0.0009662504,0.0031359082,0.0021875836,0.001819828,0.0024015575],"domain_scores_gemma":[0.9936465,0.0007728908,0.0018501828,0.0022583527,0.0005892012,0.00088285166],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.0038247355,0.0014669907,0.0028490482,0.0006683851,0.00059010467,0.00070514507,0.001450198,0.00063013757,0.00094457436],"category_scores_gemma":[0.001421208,0.0014429319,0.00044171614,0.0011091299,0.00047306457,0.0015326322,0.0012324253,0.00025128524,0.0037908414],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00051529886,0.00037050692,0.000016675478,0.0011986404,0.00015229397,0.00016753617,0.0001487285,0.0008262061,0.9865011,0.00059835316,0.005655891,0.0038487527],"study_design_scores_gemma":[0.001749632,0.00033398365,0.0010760269,0.0006919702,0.00031506314,0.000041920168,0.00015591405,0.00003822536,0.98952794,0.0025278525,0.0019983351,0.0015431626],"about_ca_topic_score_codex":0.00008191923,"about_ca_topic_score_gemma":0.00004685273,"teacher_disagreement_score":0.0071219294,"about_ca_system_score_codex":0.00039388926,"about_ca_system_score_gemma":0.0007235228,"threshold_uncertainty_score":0.9999687},"labels":[],"label_agreement":null},{"id":"W4385725543","doi":"10.1002/adma.202302826","title":"Liquid‐Templating Aerogels","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electromagnetic wave absorption materials","field":"Materials Science","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo; Okanagan University College; University of British Columbia, Okanagan Campus; University of British Columbia","funders":"Basic Energy Sciences; Canada Research Chairs; Office of Science; Natural Sciences and Engineering Research Council of Canada; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Materials science; Aerogel; Microscale chemistry; Fabrication; Nanotechnology; Porosity; Template; Nanoengineering; Electromagnetic shielding; Nanoparticle; Nanoscopic scale; Composite material","score_opus":0.016434303824673258,"score_gpt":0.27168722377843885,"score_spread":0.2552529199537656,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385725543","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941413,0.00003951466,0.00009393534,0.00027299213,0.0022318568,0.00041784227,0.0001195336,0.0013898762,0.0012931542],"genre_scores_gemma":[0.99326557,0.00004770336,0.004510805,0.00024426891,0.00036082088,0.00018735399,0.0000699611,0.00007656066,0.0012369677],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99718416,0.00020598997,0.0007094965,0.0005690236,0.0005093927,0.00082195684],"domain_scores_gemma":[0.9987104,0.00017552683,0.00027443108,0.0005575109,0.00015299472,0.00012914347],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0014989028,0.00028771118,0.00046862263,0.00015899047,0.00022345377,0.00020676572,0.00039676536,0.0001154241,0.0067357826],"category_scores_gemma":[0.000465893,0.00027509267,0.000053893513,0.0004052835,0.0000957141,0.00045409557,0.00021700334,0.00005294599,0.012770621],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011885136,0.000013420449,0.0000036837796,0.00004798669,0.0000044855046,0.000023017294,0.000086425345,0.00011155559,0.9964612,0.0017023255,0.0012200607,0.00020694545],"study_design_scores_gemma":[0.0004584389,0.0002579405,0.00030559735,0.000051832412,0.00001089295,0.000017737915,0.000048365117,0.0000029460994,0.9917153,0.0028506035,0.003959663,0.00032065253],"about_ca_topic_score_codex":0.000022512124,"about_ca_topic_score_gemma":0.0000038821586,"teacher_disagreement_score":0.006034839,"about_ca_system_score_codex":0.00007483598,"about_ca_system_score_gemma":0.00005832308,"threshold_uncertainty_score":0.99997014},"labels":[],"label_agreement":null},{"id":"W4385777808","doi":"10.1002/adma.202300713","title":"Cooperative Copper Single‐Atom Catalyst in 2D Carbon Nitride for Enhanced CO<sub>2</sub> Electrolysis to Methane","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; University of Toronto","funders":"Fundação de Amparo à Pesquisa do Estado de São Paulo; Max-Planck-Gesellschaft; Canadian Light Source; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Alexander von Humboldt-Stiftung","keywords":"Materials science; Catalysis; Faraday efficiency; Carbon nitride; Carbon fibers; Copper; Reversible hydrogen electrode; Nitride; Chemical engineering; Nanotechnology; Physical chemistry; Electrochemistry; Electrode; Chemistry; Metallurgy; Composite number; Working electrode; Organic chemistry","score_opus":0.012906532103064925,"score_gpt":0.2782211005348014,"score_spread":0.2653145684317365,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385777808","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99631673,0.00006348277,0.0006431918,0.00021585499,0.0004262266,0.0009630807,0.00015984983,0.000502223,0.00070937263],"genre_scores_gemma":[0.9960515,0.000135379,0.00060159736,0.00019203826,0.00017909131,0.001713538,0.00063759706,0.00008757829,0.00040168696],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978185,0.0001033596,0.0005982139,0.00060130353,0.0002581583,0.0006204069],"domain_scores_gemma":[0.998924,0.00012992384,0.00015352799,0.0004381787,0.00023337318,0.000120991725],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00049314974,0.0003124034,0.0006699837,0.00039582545,0.000075450465,0.000057185352,0.0002082151,0.00014209688,0.00004949907],"category_scores_gemma":[0.00027709737,0.00031601702,0.00009733191,0.0010077775,0.000036759357,0.00017029392,0.00006842934,0.000079037534,0.00013257816],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045793835,0.000048196358,0.0000011700996,0.000037532405,0.00004602944,0.000007451454,0.0002480674,0.0009387511,0.9894095,0.00038857482,0.00036218148,0.008054587],"study_design_scores_gemma":[0.00079672615,0.00024074691,0.000021061634,0.000051948587,0.000036323447,0.000004386355,0.00016132453,0.0000066741864,0.99006474,0.0006446537,0.0075978856,0.0003735252],"about_ca_topic_score_codex":0.00035002912,"about_ca_topic_score_gemma":0.0005828718,"teacher_disagreement_score":0.0076810615,"about_ca_system_score_codex":0.00031441054,"about_ca_system_score_gemma":0.00006989639,"threshold_uncertainty_score":0.9999292},"labels":[],"label_agreement":null},{"id":"W4386414876","doi":"10.1002/adma.202305238","title":"Buried‐Metal‐Grid Electrodes for Efficient Parallel‐Connected Perovskite Solar Cells","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Songshan Lake Materials Laboratory; National Key Research and Development Program of China; Engineering and Physical Sciences Research Council; China Oxford Scholarship Fund; Shenzhen Science and Technology Innovation Program; Beijing Nova Program; Natural Science Foundation of Beijing Municipality; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Indium tin oxide; Electrode; Sheet resistance; Optoelectronics; Energy conversion efficiency; Perovskite (structure); Photovoltaic system; Fabrication; Conductivity; Nanotechnology; Thin film; Layer (electronics); Chemical engineering; Electrical engineering","score_opus":0.008313471457379313,"score_gpt":0.22795329267111067,"score_spread":0.21963982121373135,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386414876","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98786634,0.00009075801,0.0070846956,0.0001289611,0.0015281662,0.00084614265,0.00074396376,0.0014951556,0.00021583393],"genre_scores_gemma":[0.9922601,0.00028841224,0.004901082,0.000068525216,0.00056373916,0.0011398157,0.0004569331,0.000118520504,0.00020290179],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99848706,0.000024089504,0.0004118088,0.00033093034,0.00015172487,0.0005943867],"domain_scores_gemma":[0.99928296,0.00009445727,0.00006405754,0.00036806407,0.0001035896,0.000086898996],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027969392,0.00026835382,0.00038488943,0.00011563364,0.0001505288,0.00010734507,0.00021413245,0.00009328735,0.00018649088],"category_scores_gemma":[0.000057237346,0.00026151436,0.00007596611,0.00028183006,0.00003051166,0.000098709424,0.000045013872,0.0000449652,0.00043780953],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000029366762,0.00001691584,3.0165592e-7,0.00012332744,0.000028537677,0.000001459168,0.00005571611,0.049683053,0.9462426,0.0007200274,0.00266049,0.00043823855],"study_design_scores_gemma":[0.0004889579,0.00004144871,0.000094056355,0.000021957443,0.000025478772,0.0000019187412,0.000023275228,0.0014096607,0.9301025,0.00080188893,0.06668275,0.00030605166],"about_ca_topic_score_codex":0.000005869975,"about_ca_topic_score_gemma":0.0000027471365,"teacher_disagreement_score":0.06402226,"about_ca_system_score_codex":0.000054528904,"about_ca_system_score_gemma":0.000015546419,"threshold_uncertainty_score":0.9999837},"labels":[],"label_agreement":null},{"id":"W4386448747","doi":"10.1002/adma.202304832","title":"How Reproducible is the Synthesis of Zr–Porphyrin Metal–Organic Frameworks? An Interlaboratory Study","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Division of Electrical, Communications and Cyber Systems; Engineering and Physical Sciences Research Council; FPInnovations; Science Foundation Ireland; School of Chemistry, University of Nottingham; Bundesministerium für Bildung, Wissenschaft, Forschung und Technologie; Ministerio de Ciencia e Innovación; Alexander von Humboldt-Stiftung; King Abdullah University of Science and Technology; Agencia Estatal de Investigación; University of Nottingham","keywords":"Porphyrin; Materials science; Metal-organic framework; Nanotechnology; Linker; Reproducibility; Phase (matter); Commercialization; Organic chemistry; Computer science; Chemistry; Chromatography","score_opus":0.019762262263316097,"score_gpt":0.2744794358295545,"score_spread":0.25471717356623835,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386448747","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964658,0.00019378672,0.00014493626,0.0016819084,0.00029913502,0.0004208681,0.0001974494,0.00029124832,0.00030487173],"genre_scores_gemma":[0.996397,0.00018812757,0.0010551101,0.00012204993,0.00025915596,0.0005607198,0.000019466575,0.00009848552,0.0012998919],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975593,0.000149901,0.00063261547,0.0008446864,0.00043793174,0.0003755336],"domain_scores_gemma":[0.99592334,0.0004969604,0.0004880924,0.002780597,0.00021972152,0.00009128425],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012533051,0.0003131312,0.0006401775,0.000081237755,0.00019358989,0.00018085452,0.0008327006,0.0002584252,0.0042869523],"category_scores_gemma":[0.002007461,0.00023337717,0.000101062804,0.00073632685,0.00012367211,0.00032710985,0.00023454908,0.00027911697,0.00017057495],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030574804,0.00027069787,0.00006938257,0.000093972165,0.00014473626,0.0000034372645,0.0005543132,0.0000059971976,0.99224,0.0004801892,0.0005693448,0.0055373395],"study_design_scores_gemma":[0.00014364682,0.0000357652,0.0003336639,0.000103296545,0.00015044824,0.0000021066803,0.0050179395,0.000005226013,0.986477,0.002003998,0.005475678,0.00025122194],"about_ca_topic_score_codex":0.000017544273,"about_ca_topic_score_gemma":0.000009164238,"teacher_disagreement_score":0.005763006,"about_ca_system_score_codex":0.000043801338,"about_ca_system_score_gemma":0.00005747143,"threshold_uncertainty_score":0.9966233},"labels":[],"label_agreement":null},{"id":"W4386466687","doi":"10.1002/adma.202305964","title":"Intrafibrillar Crosslinking Enables Decoupling of Mechanical Properties and Structure of a Composite Fibrous Hydrogel","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cellular Mechanics and Interactions","field":"Biochemistry, Genetics and Molecular Biology","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"St. Michael's Hospital; University of Toronto","funders":"Canadian Institutes of Health Research; Canada Foundation for Innovation","keywords":"Materials science; Self-healing hydrogels; Gelatin; Fibroblast; Extracellular matrix; Composite number; Tissue engineering; Stiffness; Nanotechnology; Composite material; Biomedical engineering; Biophysics; Polymer chemistry; Chemistry","score_opus":0.01219170018362652,"score_gpt":0.24125455436389073,"score_spread":0.2290628541802642,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386466687","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99882203,0.0003892529,0.00037353183,0.000013049831,0.00018013788,0.00011846579,0.00008182207,0.000012796024,0.000008924654],"genre_scores_gemma":[0.9980477,0.00039103348,0.0013681501,0.000013601475,0.00005168572,0.000003763938,0.000077824574,0.000017735756,0.000028497278],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999341,0.000014153894,0.0002545346,0.00017770006,0.00008157095,0.00013104363],"domain_scores_gemma":[0.99959403,0.000009290776,0.00012338691,0.0001610348,0.000086005355,0.000026220954],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000090026755,0.00009511771,0.00019681956,0.000035872323,0.000047256475,0.000015039008,0.000070063514,0.00008078603,0.000014741563],"category_scores_gemma":[0.00006417943,0.00008385198,0.000033070788,0.000057182242,0.00003609115,0.0000066193265,0.00012980653,0.000024228606,7.793713e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009297691,0.000007243201,0.000012151738,0.00011477953,0.000031477448,8.4596513e-7,0.000038905797,0.00038013954,0.99869144,0.0002957404,0.000008353969,0.0003259575],"study_design_scores_gemma":[0.0002187776,0.00012864402,0.000025679294,0.00007712808,0.000012812236,0.000014324848,0.000056603607,0.00016769898,0.99760294,0.000899496,0.0007071489,0.00008873294],"about_ca_topic_score_codex":0.000014087194,"about_ca_topic_score_gemma":0.000008156459,"teacher_disagreement_score":0.0010884745,"about_ca_system_score_codex":0.0000044705334,"about_ca_system_score_gemma":0.00001849896,"threshold_uncertainty_score":0.34193844},"labels":[],"label_agreement":null},{"id":"W4386505883","doi":"10.1002/adma.202370259","title":"Enabling Future Closed‐Loop Recycling of Spent Lithium‐Ion Batteries: Direct Cathode Regeneration (Adv. Mater. 36/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Extraction and Separation Processes","field":"Engineering","cited_by":82,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Materials science; Lithium (medication); Sustainability; Battery (electricity); Cathode; Closed loop; Regeneration (biology); Lithium-ion battery; Waste management; Automotive engineering; Electrical engineering; Engineering","score_opus":0.019025103156817994,"score_gpt":0.27946679005786523,"score_spread":0.26044168690104724,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386505883","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98772794,0.0004664882,0.0017961699,0.00023283176,0.0049800705,0.00029741705,0.00009835335,0.0008599742,0.0035407734],"genre_scores_gemma":[0.98763883,0.0043379874,0.0028918893,0.00008724746,0.0008617839,0.00011175533,0.00034411988,0.00008044096,0.0036459528],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99864817,0.000058830552,0.0005704382,0.0002496738,0.00021864158,0.00025423046],"domain_scores_gemma":[0.9993576,0.00006586904,0.00014690605,0.0002542404,0.00012373272,0.000051675546],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003979982,0.00020256639,0.00032920038,0.00015878987,0.00009946028,0.0000848629,0.000111031564,0.00012420458,0.0004131945],"category_scores_gemma":[0.00009990363,0.00020247068,0.000038313767,0.00033181396,0.000018856643,0.0005107849,0.000027320433,0.000075450705,0.0001610599],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004863913,0.000009757998,0.000007117004,0.00034425396,0.000016000939,0.0000044195817,0.00036821753,0.025197653,0.9702208,0.0001453755,0.001441604,0.0021961562],"study_design_scores_gemma":[0.00022254449,0.000027047558,0.0001675529,0.00010389102,0.000012879288,0.0000046230443,0.00032243138,0.00029685977,0.95782334,0.00028178323,0.040531673,0.00020536559],"about_ca_topic_score_codex":0.000009191631,"about_ca_topic_score_gemma":0.000018104702,"teacher_disagreement_score":0.039090067,"about_ca_system_score_codex":0.00006347163,"about_ca_system_score_gemma":0.000021299466,"threshold_uncertainty_score":0.82565147},"labels":[],"label_agreement":null},{"id":"W4386513818","doi":"10.1002/adma.202370254","title":"In Situ Activation of Snap‐Through Instability in Multi‐Response Metamaterials through Multistable Topological Transformation (Adv. Mater. 36/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Metamaterial; Materials science; Bellows; Nanotechnology; Topology (electrical circuits); Optoelectronics; Electrical engineering; Engineering","score_opus":0.034688368758998514,"score_gpt":0.3039505376478569,"score_spread":0.2692621688888584,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386513818","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9861279,0.000042049323,0.010497869,0.00008572317,0.0014721039,0.0009999097,0.00029281812,0.0003437537,0.00013783557],"genre_scores_gemma":[0.98704517,0.0005229909,0.011782821,0.000049160237,0.000034468892,0.00032152227,0.00014379555,0.00006005654,0.000039992876],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972242,0.0002801602,0.0012697607,0.00038163716,0.0002518665,0.0005923899],"domain_scores_gemma":[0.9991536,0.00018604308,0.00017858577,0.00036433106,0.00007364838,0.00004375881],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011923821,0.0003596006,0.00085703866,0.00017842145,0.000046671885,0.000041542775,0.00020196382,0.0002576949,0.0003257592],"category_scores_gemma":[0.00033358834,0.0003516142,0.00005828131,0.000542939,0.000056525994,0.0018335198,0.00006812939,0.000099858524,0.00005953627],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012985735,0.000081591024,0.0000043774894,0.000511402,0.000011133226,0.000012749965,0.001468498,0.019888401,0.97494286,0.0015731554,0.000011535601,0.00019573524],"study_design_scores_gemma":[0.001969258,0.00007914892,0.0013358728,0.00014581281,0.000008379583,0.0000030418666,0.00050295604,0.00023219535,0.9850645,0.008806456,0.0015107574,0.000341614],"about_ca_topic_score_codex":0.00013887779,"about_ca_topic_score_gemma":0.00008616843,"teacher_disagreement_score":0.019656206,"about_ca_system_score_codex":0.00027026943,"about_ca_system_score_gemma":0.000029442006,"threshold_uncertainty_score":0.9998936},"labels":[],"label_agreement":null},{"id":"W4386580119","doi":"10.1002/adma.202305268","title":"Advancing Intelligent Organ‐on‐a‐Chip Systems with Comprehensive In Situ Bioanalysis","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Fundamental Research Funds for the Central Universities; National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Bioanalysis; Materials science; Nanotechnology; In situ; Systems engineering; Process engineering; Engineering; Organic chemistry","score_opus":0.051959585348869984,"score_gpt":0.35031754230953904,"score_spread":0.2983579569606691,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386580119","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00075032015,0.99453133,0.00047305803,0.0000085944885,0.0014054776,0.0015864868,0.00011690982,0.00071096106,0.0004168873],"genre_scores_gemma":[0.00080842985,0.9972088,0.0006356942,0.000008351781,0.00020387585,0.0004912842,0.00015583642,0.00029695954,0.00019080011],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9962491,0.00025925753,0.0012139496,0.0006426009,0.0007621075,0.00087297795],"domain_scores_gemma":[0.9976804,0.000996436,0.00022142754,0.00076649286,0.00012793228,0.00020726035],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007272663,0.00066916045,0.0026876077,0.0009015251,0.000047836747,0.00013123732,0.00059284206,0.00031828633,0.00009020911],"category_scores_gemma":[0.00044147056,0.0005099957,0.00014769855,0.0015081847,0.00008880325,0.00008817393,0.00019722705,0.0005069942,0.0012060275],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000041027957,0.000059168513,0.0000010517243,0.13394147,0.0011006321,0.0005925535,0.00009458185,0.017969409,0.005805164,0.00021493169,0.00029394898,0.83988607],"study_design_scores_gemma":[0.00025266706,0.0000965452,0.0000028977427,0.051265147,0.00022967125,0.000024644005,0.00009406836,0.00006408447,0.0037885269,0.000038870952,0.9432944,0.00084849034],"about_ca_topic_score_codex":0.000036080673,"about_ca_topic_score_gemma":0.000037265774,"teacher_disagreement_score":0.94300044,"about_ca_system_score_codex":0.0007403215,"about_ca_system_score_gemma":0.0001215968,"threshold_uncertainty_score":0.9997352},"labels":[],"label_agreement":null},{"id":"W4386595139","doi":"10.1002/adma.202306653","title":"3D Printed Cellulose Nanofiber Aerogel Scaffold with Hierarchical Porous Structures for Fast Solar‐Driven Atmospheric Water Harvesting","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Solar-Powered Water Purification Methods","field":"Energy","cited_by":171,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Key Research and Development Program of China; Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Aerogel; Chemical engineering; Porosity; Sorption; Cellulose; Nanofiber; Water vapor; Nanotechnology; Composite material; Organic chemistry; Adsorption; Chemistry","score_opus":0.018379859074263212,"score_gpt":0.2736992284874392,"score_spread":0.255319369413176,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386595139","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.975256,0.000020795856,0.021049295,0.00020439453,0.0010156664,0.0009684369,0.000085578235,0.0009661881,0.00043364428],"genre_scores_gemma":[0.58170575,0.000009424851,0.41263556,0.00014758253,0.0002569798,0.00048218822,0.0004327736,0.00019913191,0.0041306224],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968338,0.00031034986,0.00069456454,0.0008195832,0.00039413726,0.00094755366],"domain_scores_gemma":[0.99838257,0.0002330591,0.00022860858,0.0007212168,0.00025273324,0.00018183595],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0006383007,0.0004623713,0.0006063757,0.00005993829,0.0002501485,0.00021577292,0.00042385218,0.00021156284,0.0005555995],"category_scores_gemma":[0.0002168341,0.000328835,0.00008325844,0.00031299877,0.0001395944,0.00038826853,0.00018243198,0.00012024511,0.00024481636],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00046367408,0.000031361822,0.000103260885,0.00013623574,0.000089250876,0.00002935343,0.000630105,0.0065060905,0.97855365,0.0018800775,0.00010162494,0.0114753],"study_design_scores_gemma":[0.0014813099,0.0001641798,0.00109812,0.000060996685,0.000050485225,0.0000329652,0.000085468666,0.00034751615,0.9731428,0.0046442603,0.018366639,0.0005252304],"about_ca_topic_score_codex":0.000103363454,"about_ca_topic_score_gemma":0.000031104475,"teacher_disagreement_score":0.39355028,"about_ca_system_score_codex":0.000102745005,"about_ca_system_score_gemma":0.00005332041,"threshold_uncertainty_score":0.9999164},"labels":[],"label_agreement":null},{"id":"W4386699273","doi":"10.1002/adma.202306373","title":"Asymmetric Π‐Bridge Engineering Enables High‐Permittivity Benzo[1,2‐B:4,5‐b′]Difuran‐Conjugated Polymer for Efficient Organic Solar Cells","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"Postdoctoral Research Foundation of China; Salt Science Research Foundation; China Postdoctoral Science Foundation; Natural Science Foundation of Henan Province; Henan University; National Natural Science Foundation of China","keywords":"Materials science; Organic solar cell; Thiophene; Conjugated system; Furan; Polymer solar cell; Polymer; Polymer chemistry; Energy conversion efficiency; Optoelectronics; Organic chemistry; Chemistry; Composite material","score_opus":0.006203092459466917,"score_gpt":0.199689442010295,"score_spread":0.19348634955082808,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386699273","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9909144,0.00060704694,0.0033972515,0.000033327484,0.0024908374,0.0006721657,0.00045769385,0.001388784,0.000038489634],"genre_scores_gemma":[0.99818224,0.0006016622,0.00030556688,0.0000357045,0.00023966336,0.000121019,0.00014581699,0.00022047453,0.00014782966],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99790406,0.000024426292,0.00047545385,0.00040155675,0.00024959032,0.0009449099],"domain_scores_gemma":[0.999046,0.00023578519,0.000075857875,0.00041232328,0.00009231685,0.00013769178],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00045840055,0.00039760914,0.0005240458,0.00033415537,0.0001262713,0.000097103766,0.00026239498,0.00017336317,0.00014407007],"category_scores_gemma":[0.00012099481,0.00041921242,0.00009096046,0.0010731365,0.000017558341,0.00013436178,0.000076998454,0.00014107107,0.00020884727],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020696809,0.000023159095,0.0000017323265,0.0002515345,0.00006673346,0.000007564582,0.000048098394,0.03541542,0.9630008,0.00019156336,0.00053876074,0.00043399128],"study_design_scores_gemma":[0.00078165764,0.00008115991,0.00015652014,0.00004046983,0.00004355188,0.000004557645,0.0000071976297,0.006583755,0.9876934,0.00012346027,0.0039964095,0.0004878164],"about_ca_topic_score_codex":0.000031049618,"about_ca_topic_score_gemma":0.000009181366,"teacher_disagreement_score":0.028831663,"about_ca_system_score_codex":0.00019822932,"about_ca_system_score_gemma":0.000046751433,"threshold_uncertainty_score":0.99982595},"labels":[],"label_agreement":null},{"id":"W4386703688","doi":"10.1002/adma.202304517","title":"Electrochemically Responsive 3D Nanoarchitectures","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Engineering and Physical Sciences Research Council; European Research Council; Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Microstructure; Nanotechnology; Fabrication; Nanomaterials; Lithography; Electrochromism; Electrochemistry; Carbon nanotube; 3D printing; Composite material; Optoelectronics; Electrode","score_opus":0.006729651104501533,"score_gpt":0.22347272799486317,"score_spread":0.21674307689036165,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386703688","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99326146,0.00006886087,0.00073351787,0.00003835807,0.0010736702,0.00013848359,0.000053990167,0.0027077855,0.0019238956],"genre_scores_gemma":[0.9895631,0.00023557057,0.008936317,0.00009532115,0.00025676232,0.00009207583,0.000092276656,0.000111453715,0.0006171142],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986704,0.000043395088,0.00031510313,0.00024857343,0.00018648074,0.00053603033],"domain_scores_gemma":[0.9993932,0.00013322948,0.00004105422,0.0002914738,0.00005752608,0.00008351617],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018900547,0.00023720162,0.00031114373,0.00013255775,0.00007551439,0.000050207327,0.00017427503,0.00008962292,0.00017916418],"category_scores_gemma":[0.00033247066,0.00022878457,0.000035004083,0.00028751852,0.00004354424,0.00013336168,0.00004737078,0.000068516616,0.00040403777],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006618725,0.000002680966,6.507457e-7,0.000050963594,0.000015482015,0.000022184126,0.000057333888,0.060249697,0.936787,0.00024458978,0.0006742719,0.0018289252],"study_design_scores_gemma":[0.00025287113,0.000029590932,0.00010590029,0.00003575639,0.0000067777432,0.000014718401,0.000013151413,0.00007089509,0.9805006,0.0036385213,0.015056475,0.00027475785],"about_ca_topic_score_codex":0.000002726856,"about_ca_topic_score_gemma":0.0000023590555,"teacher_disagreement_score":0.0601788,"about_ca_system_score_codex":0.00005273372,"about_ca_system_score_gemma":0.000013427149,"threshold_uncertainty_score":0.9329564},"labels":[],"label_agreement":null},{"id":"W4386704493","doi":"10.1002/adma.202307195","title":"Magnetic Imaging and Domain Nucleation in CrSBr Down to the 2D Limit","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"H2020 Marie Skłodowska-Curie Actions; European Research Council; Engineering and Physical Sciences Research Council; H2020 European Research Council; Networks of Centres of Excellence of Canada; Federación Española de Enfermedades Raras; Generalitat Valenciana; Israel Science Foundation; European Commission; Graphene Flagship","keywords":"Condensed matter physics; Materials science; Spintronics; Magnetic anisotropy; Demagnetizing field; Ferromagnetism; van der Waals force; Magnetic force microscope; Monolayer; Magnetic domain; Magnetic field; Antiferromagnetism; Bilayer; Magnetism; Domain wall (magnetism); Anisotropy; Nanotechnology; Physics; Magnetization; Optics; Chemistry","score_opus":0.00827126485122833,"score_gpt":0.2550722099319098,"score_spread":0.24680094508068148,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386704493","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942027,0.00008856584,0.00011801128,0.003801272,0.0005659478,0.0005977727,0.00009081768,0.00017234683,0.00036261408],"genre_scores_gemma":[0.995686,0.00009377248,0.0029435104,0.00052977493,0.00013762285,0.00038433267,0.000017362745,0.000027358728,0.00018025935],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99872655,0.000085019776,0.00033065627,0.00034665514,0.00017095795,0.00034016947],"domain_scores_gemma":[0.9994134,0.00007325337,0.000075703654,0.00033516754,0.00004047277,0.00006204953],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007863238,0.00014026022,0.00019809332,0.000088337525,0.00016910137,0.00023733442,0.00022022826,0.00003106529,0.00059739995],"category_scores_gemma":[0.00009076554,0.00010628559,0.000013618254,0.00028524376,0.000057141588,0.00020415035,0.00018573091,0.000027753316,0.0012650761],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027879652,0.000009726657,0.00002361212,0.000017688413,4.9512084e-7,0.0000035773455,0.00032563342,0.00011036896,0.9915336,0.0039552827,0.0007828162,0.0032093467],"study_design_scores_gemma":[0.000455974,0.000043004908,0.017315205,0.00006259896,0.0000070859364,0.000008805524,0.00044267657,0.000017977762,0.9292747,0.012845414,0.03928733,0.00023925393],"about_ca_topic_score_codex":0.000083690364,"about_ca_topic_score_gemma":0.000051825995,"teacher_disagreement_score":0.0622589,"about_ca_system_score_codex":0.000035670837,"about_ca_system_score_gemma":0.000015717993,"threshold_uncertainty_score":0.99951255},"labels":[],"label_agreement":null},{"id":"W4386914981","doi":"10.1002/adma.202306147","title":"Halide‐Driven Synthetic Control of InSb Colloidal Quantum Dots Enables Short‐Wave Infrared Photodetectors","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Halide; Antimony; Quantum dot; Photoluminescence; Photodetector; Infrared; Optoelectronics; Dispersity; Nanotechnology; Semiconductor; Fabrication; Zinc; Optics; Inorganic chemistry; Chemistry; Metallurgy","score_opus":0.024035851311343018,"score_gpt":0.24323281227409993,"score_spread":0.21919696096275693,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386914981","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959397,0.00026029418,0.0001277839,0.00006612569,0.0014702677,0.00068628107,0.0006783159,0.00036985075,0.00040141967],"genre_scores_gemma":[0.9984563,0.00025552575,0.00041340344,0.000071411516,0.00010416366,0.0002473073,0.000018939441,0.0000740258,0.00035892194],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99689054,0.00033355094,0.0009469738,0.0005619234,0.0005761107,0.00069089414],"domain_scores_gemma":[0.998291,0.00039445516,0.00032360488,0.00064233673,0.00021987913,0.00012870334],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011096299,0.0003724402,0.0009416005,0.00021078336,0.00019844259,0.00014235795,0.0004239748,0.00015573032,0.0017056676],"category_scores_gemma":[0.00079633493,0.00029926436,0.00012249881,0.0003028652,0.00028522123,0.00041414952,0.000158835,0.00006593671,0.00042037666],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044163538,0.000045438705,0.000033527085,0.00018940355,0.00002790446,0.000027209207,0.00037580446,0.0004966914,0.9970012,0.0005528295,0.00020918874,0.0005992153],"study_design_scores_gemma":[0.0006040082,0.00021340016,0.00030913096,0.0002051519,0.000037953752,0.00001185311,0.0002963119,0.00022154793,0.99294895,0.0019981423,0.0027722772,0.00038127534],"about_ca_topic_score_codex":0.00009296993,"about_ca_topic_score_gemma":0.000012225213,"teacher_disagreement_score":0.004052205,"about_ca_system_score_codex":0.000068396745,"about_ca_system_score_gemma":0.000107047876,"threshold_uncertainty_score":0.99994594},"labels":[],"label_agreement":null},{"id":"W4386936007","doi":"10.1002/adma.202370273","title":"Ferroelectric Switching at Symmetry‐Broken Interfaces by Local Control of Dislocations Networks (Adv. Mater. 38/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ultrasonics and Acoustic Wave Propagation","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"","keywords":"Materials science; Ferroelectricity; Condensed matter physics; Stacking; Symmetry (geometry); Domain (mathematical analysis); Local symmetry; Optoelectronics; Nuclear magnetic resonance; Dielectric; Quantum mechanics; Physics; Geometry","score_opus":0.003820116127679972,"score_gpt":0.20257910932419226,"score_spread":0.1987589931965123,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386936007","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.69574916,0.000440457,0.30220369,0.000053795036,0.0007066283,0.0002529001,0.00014392717,0.00029805055,0.00015139738],"genre_scores_gemma":[0.998831,0.00040034394,0.00027373797,0.000018790632,0.000062010695,0.00006864391,0.00014230046,0.000051642684,0.00015156146],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988296,0.000032672207,0.00042617004,0.0001952653,0.0001671683,0.0003491325],"domain_scores_gemma":[0.99945766,0.00012927639,0.000100163365,0.00019720933,0.00006059038,0.000055126446],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002461341,0.00018424554,0.00031074628,0.00009837697,0.00007313256,0.00004289102,0.0001542569,0.0000846859,0.00011869997],"category_scores_gemma":[0.000065610984,0.00017735262,0.000033543478,0.00033932074,0.000025376507,0.00015988169,0.00004120457,0.000074150696,0.00007959928],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021897471,0.000008847089,0.000017877837,0.00009028088,0.00003561397,0.0000010736685,0.00004768094,0.16912836,0.82649136,0.000104261686,0.0006835009,0.003369274],"study_design_scores_gemma":[0.00055504404,0.000053862685,0.0002362648,0.00009182548,0.000036765352,0.00000359477,0.0000899167,0.15968613,0.83804435,0.0005223752,0.0004355429,0.00024435527],"about_ca_topic_score_codex":0.000014029129,"about_ca_topic_score_gemma":0.0000054974894,"teacher_disagreement_score":0.3030818,"about_ca_system_score_codex":0.00012137115,"about_ca_system_score_gemma":0.00000869229,"threshold_uncertainty_score":0.723223},"labels":[],"label_agreement":null},{"id":"W4387077144","doi":"10.1002/adma.202304654","title":"Brain‐Targeted Liposomes Loaded with Monoclonal Antibodies Reduce Alpha‐Synuclein Aggregation and Improve Behavioral Symptoms in Parkinson's Disease","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Neurological disorders and treatments","field":"Medicine","cited_by":83,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Aging; Ben-Gurion University of the Negev; European Commission; Tel Aviv University; Rothschild Caesarea Foundation; Michael J. Fox Foundation for Parkinson's Research; Phospholipid Research Center; Hebrew University of Jerusalem; Israel National Institute for Health Policy Research; Azrieli Foundation; Israel Science Foundation; Jewish National Fund; Teva Pharmaceutical Industries","keywords":"Neuroinflammation; Blood–brain barrier; Monoclonal antibody; Neurodegeneration; Transferrin; Liposome; Pharmacology; Parkinson's disease; In vivo; Transferrin receptor; Neuroscience; Medicine; Chemistry; Antibody; Biology; Immunology; Disease; Biochemistry; Pathology; Central nervous system","score_opus":0.014872246799308696,"score_gpt":0.2880474798454218,"score_spread":0.2731752330461131,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387077144","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969817,0.000290312,0.0000017620451,0.0016523503,0.00013511775,0.00066482584,0.00011073639,0.00014279695,0.000020391062],"genre_scores_gemma":[0.9984887,0.0002617314,0.00028051998,0.00037720278,0.000029280327,0.00013175463,0.00019329469,0.000029034556,0.00020844127],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988784,0.00004275615,0.00021482672,0.0003920745,0.00018389247,0.0002880531],"domain_scores_gemma":[0.99952537,0.000044903805,0.000085413936,0.00016984718,0.00003997943,0.00013448067],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006768232,0.00019495378,0.00033396616,0.000102268736,0.000058305486,0.00003265768,0.000041500098,0.00005423044,0.000047872927],"category_scores_gemma":[0.000062226776,0.00014244336,0.000027595339,0.00017248228,0.0000944956,0.00016950535,0.000044565608,0.000054046042,0.000019407258],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0044695935,0.00038437746,0.045795903,0.00010955773,0.00005299552,0.0009031098,0.00014056306,0.000014928606,0.9303372,0.000084893494,0.00013203593,0.01757487],"study_design_scores_gemma":[0.0063414485,0.0015753205,0.6050845,0.00017719468,0.00011673008,0.0000110202445,0.00007109262,0.00001972434,0.38370275,0.0021388542,0.0004914427,0.00026994152],"about_ca_topic_score_codex":0.000035615438,"about_ca_topic_score_gemma":0.0000073138895,"teacher_disagreement_score":0.55928856,"about_ca_system_score_codex":0.000027208403,"about_ca_system_score_gemma":0.000031653424,"threshold_uncertainty_score":0.5808672},"labels":[],"label_agreement":null},{"id":"W4387328929","doi":"10.1002/adma.202307077","title":"3D‐Architected Alkaline‐Earth Perovskites","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"European Research Council; University of Twente; European Commission; University of California Institute for Mexico and the United States","keywords":"Materials science; Alkaline earth metal; Perovskite (structure); Photoluminescence; Ceramic; Cathodoluminescence; Nanotechnology; Optoelectronics; Chemical engineering; Composite material; Metal; Luminescence","score_opus":0.008497252503528962,"score_gpt":0.22991309615568017,"score_spread":0.22141584365215122,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387328929","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99405056,0.00004198658,0.0004742721,0.00007063349,0.0006952998,0.00023198184,0.00028527784,0.0022181598,0.0019318115],"genre_scores_gemma":[0.99493796,0.00022931429,0.003418722,0.000048007547,0.00024306931,0.0002206557,0.00025441733,0.0000707854,0.0005771017],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99900645,0.00002035636,0.00027965524,0.0001994776,0.00013958378,0.00035447907],"domain_scores_gemma":[0.9995026,0.00004560945,0.000030559888,0.00031065004,0.000040892908,0.00006969741],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014395936,0.00017688931,0.00023356386,0.00010011865,0.0000824547,0.000078687954,0.00015884105,0.000059254737,0.0008051238],"category_scores_gemma":[0.000042282718,0.00017203456,0.000029601353,0.00030637777,0.000030115123,0.00012269068,0.000052369218,0.000041959953,0.0021679527],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006082892,0.000006072934,0.000002736222,0.00005231038,0.000011180362,0.000003494064,0.00005328132,0.0045971097,0.9911272,0.00045519802,0.0010631976,0.0026221639],"study_design_scores_gemma":[0.00027178938,0.000016329805,0.0014427963,0.00002696832,0.000008403421,0.000004886825,0.000020701438,0.0003419955,0.90484774,0.0010245107,0.09174332,0.0002505844],"about_ca_topic_score_codex":0.0000075814146,"about_ca_topic_score_gemma":0.000006497115,"teacher_disagreement_score":0.09068012,"about_ca_system_score_codex":0.000017285909,"about_ca_system_score_gemma":0.000008692525,"threshold_uncertainty_score":0.99860895},"labels":[],"label_agreement":null},{"id":"W4387432791","doi":"10.1002/adma.202307210","title":"Liquid Crystal Elastomer Artificial Tendrils with Asymmetric Core–Sheath Structure Showing Evolutionary Biomimetic Locomotion","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Department of Science and Technology of Sichuan Province; National Natural Science Foundation of China","keywords":"Tendril; Morphing; Materials science; Mechanism (biology); Nanotechnology; Biological system; Computer science; Physics; Artificial intelligence; Biology; Ecology","score_opus":0.013218859231313735,"score_gpt":0.22579752320442475,"score_spread":0.212578663973111,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387432791","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97556174,0.00012995885,0.018757282,0.000026098594,0.0030823578,0.00053484057,0.00043086245,0.0013199764,0.0001568699],"genre_scores_gemma":[0.98995227,0.00013698825,0.008932179,0.000026218448,0.00039089905,0.00007858855,0.00028937956,0.00013457812,0.000058907735],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981075,0.000032559736,0.00046765758,0.0003983921,0.00035736448,0.00063653645],"domain_scores_gemma":[0.9992788,0.0000539158,0.00009463386,0.00034109518,0.00010729095,0.00012429999],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00018633119,0.0003715704,0.0004606423,0.00038284148,0.00014778359,0.000063201325,0.00016591478,0.00015805759,0.00026824314],"category_scores_gemma":[0.000066421744,0.00033027577,0.00004907154,0.0008697433,0.000043847962,0.00043836638,0.00007244911,0.000103924,0.0001350409],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021309845,0.000014428544,0.0000015247451,0.00013857268,0.000033788237,0.000028730667,0.000043623906,0.028492462,0.96776634,0.0011704857,0.00017820529,0.0019187412],"study_design_scores_gemma":[0.00054645544,0.00032543027,0.00015352429,0.000114297305,0.000045428573,0.000041142604,0.000084486725,0.00079505326,0.9895225,0.0046826494,0.0031708295,0.00051815616],"about_ca_topic_score_codex":0.000004096281,"about_ca_topic_score_gemma":0.0000049970313,"teacher_disagreement_score":0.027697409,"about_ca_system_score_codex":0.00017568495,"about_ca_system_score_gemma":0.000033161556,"threshold_uncertainty_score":0.99991494},"labels":[],"label_agreement":null},{"id":"W4387576450","doi":"10.1002/adma.202370291","title":"Molecular Structure and Conformational Design of Donor‐Acceptor Conjugated Polymers to Enable Predictable Optoelectronic Property (Adv. Mater. 41/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Conducting polymers and applications","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"","keywords":"Conjugated system; Materials science; Polymer; Acceptor; Neutron scattering; Scattering; Optoelectronics; Nanotechnology; Optics; Condensed matter physics; Composite material","score_opus":0.01256691450416503,"score_gpt":0.25100345269617996,"score_spread":0.23843653819201494,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387576450","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99624425,0.00010377315,0.0010990434,0.00034700037,0.0003635717,0.0008996345,0.00061186735,0.00018481303,0.00014603279],"genre_scores_gemma":[0.9948068,0.000037671613,0.0037187696,0.00019015247,0.000046886682,0.00020146588,0.00012457004,0.00003373217,0.0008399086],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983216,0.00007372754,0.0004718128,0.0003688451,0.00027902264,0.00048498646],"domain_scores_gemma":[0.99916464,0.000055447854,0.00020559457,0.00031139652,0.00013701642,0.0001258875],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003486818,0.00021309855,0.00035044286,0.000119336786,0.00016518068,0.00011822281,0.00025153873,0.00007995357,0.0021617354],"category_scores_gemma":[0.000085858526,0.00016437197,0.000023725474,0.00034842177,0.0000994135,0.00035219648,0.00014578125,0.000048720558,0.00011337852],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000099314755,0.000011838963,0.000004099129,0.00007425579,0.000014195516,0.0000012978123,0.00017264478,0.002101856,0.9959422,0.0005306483,0.0005833407,0.00046434512],"study_design_scores_gemma":[0.0004534719,0.00012376143,0.000048127866,0.000037010028,0.000019920497,0.000008700811,0.00012635168,0.00007351866,0.99612814,0.000656152,0.0021127434,0.00021207891],"about_ca_topic_score_codex":0.00012897051,"about_ca_topic_score_gemma":0.000002558098,"teacher_disagreement_score":0.0026197264,"about_ca_system_score_codex":0.000050239047,"about_ca_system_score_gemma":0.00013865836,"threshold_uncertainty_score":0.99875045},"labels":[],"label_agreement":null},{"id":"W4387598132","doi":"10.1002/adma.202307515","title":"Universal Stripe Symmetry of Short‐Range Charge Density Waves in Cuprate Superconductors","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Physics of Superconductivity and Magnetism","field":"Physics and Astronomy","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"ISIS Neutron and Muon Source; Engineering and Physical Sciences Research Council; Office of Science; Shanghai Institute of Technical Physics, Chinese Academy of Sciences; Basic Energy Sciences; Ministry of Science and ICT, South Korea; National Natural Science Foundation of China; National Research Foundation; Division of Materials Research; National Research Foundation of Korea; Diamond Light Source; U.S. Department of Energy; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Cuprate; Condensed matter physics; Symmetry (geometry); Physics; Superconductivity; Charge density wave; Charge (physics); Materials science; Anisotropy; Translational symmetry; Yttrium; Quantum mechanics; Geometry","score_opus":0.018079915287086575,"score_gpt":0.2525875755328043,"score_spread":0.23450766024571773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387598132","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975731,0.000017688546,0.000031828087,0.00005718431,0.00048568335,0.00021163863,0.00031041636,0.00005382797,0.0012586755],"genre_scores_gemma":[0.9993324,0.000031414933,0.00011479147,0.000011004346,0.00012517537,0.00001531079,0.0001125661,0.000022264394,0.00023504432],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99890566,0.00006351614,0.0002659672,0.0002773522,0.00015794163,0.00032958042],"domain_scores_gemma":[0.999519,0.00006065481,0.00005255839,0.00024616343,0.00006280211,0.000058847847],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022491982,0.00017873608,0.0003946262,0.00013763615,0.00005077246,0.0000200509,0.0001619232,0.00004902848,0.00057273067],"category_scores_gemma":[0.000012969194,0.00018633477,0.000062584506,0.00032631544,0.000079531776,0.0014241678,0.00010618374,0.000090204005,0.000089885165],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026405889,0.00007660183,0.0022433673,0.00003440619,0.000023438412,0.0000064630294,0.00025562476,0.000012168328,0.9583888,0.03680108,0.000063054744,0.002068557],"study_design_scores_gemma":[0.00055514876,0.000046869685,0.0074243452,0.000044410575,0.000016334823,3.4214932e-7,0.0009397981,0.000005157675,0.9699467,0.020404957,0.0003810433,0.00023489574],"about_ca_topic_score_codex":0.00057017704,"about_ca_topic_score_gemma":0.000017248283,"teacher_disagreement_score":0.016396122,"about_ca_system_score_codex":0.00002434383,"about_ca_system_score_gemma":0.000045848057,"threshold_uncertainty_score":0.75985116},"labels":[],"label_agreement":null},{"id":"W4387697338","doi":"10.1002/adma.202308012","title":"Halide Heterogeneous Structure Boosting Ionic Diffusion and High‐Voltage Stability of Sodium Superionic Conductors","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Government of Saskatchewan; Canada Research Chairs; Western University; National Natural Science Foundation of China; Canada Foundation for Innovation; Canadian Institutes of Health Research; National Research Council; University of Saskatchewan; Canadian Light Source; National Science Foundation","keywords":"Fast ion conductor; Halide; Materials science; Boosting (machine learning); Electrical conductor; Ionic bonding; Diffusion; Sodium; Ionic conductivity; Inorganic chemistry; Chemical engineering; Nanotechnology; Ion; Chemical physics; Electrolyte; Electrode; Physical chemistry; Chemistry; Thermodynamics; Organic chemistry; Metallurgy; Composite material; Physics; Computer science","score_opus":0.010826037609521225,"score_gpt":0.21553584499582776,"score_spread":0.20470980738630654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387697338","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99684453,0.00021513153,0.00014007656,0.000021340764,0.0010547927,0.00027635176,0.0004034796,0.0010348257,0.000009497725],"genre_scores_gemma":[0.998552,0.00044235037,0.0007848985,0.000009615927,0.00004589579,0.000026777621,0.00007461574,0.000055653752,0.000008149573],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986989,0.000026833224,0.00045510614,0.00029769665,0.00015068904,0.0003707673],"domain_scores_gemma":[0.9993736,0.0000796338,0.00009296388,0.00036003542,0.00004924267,0.000044529734],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000138699,0.00025738325,0.00047049604,0.00009538809,0.000087859065,0.000042576557,0.00015012237,0.00013787448,0.00022144249],"category_scores_gemma":[0.00012567524,0.00023106705,0.00002868213,0.00015654706,0.00012477554,0.00022371611,0.00018009605,0.00007220815,0.00000884533],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022918408,0.0000049796236,0.000130757,0.000340638,0.000015394948,0.0000094772795,0.00007066034,0.0013833066,0.9963083,0.00016874402,0.000010791977,0.0015340189],"study_design_scores_gemma":[0.00035243895,0.000052493662,0.0013764455,0.000059687256,0.0000115964285,0.000012093049,0.00011404462,0.000066894456,0.9933324,0.0041746143,0.00021466427,0.00023264429],"about_ca_topic_score_codex":0.000020645388,"about_ca_topic_score_gemma":0.0000134109805,"teacher_disagreement_score":0.0040058703,"about_ca_system_score_codex":0.000053295065,"about_ca_system_score_gemma":0.000009660681,"threshold_uncertainty_score":0.9422641},"labels":[],"label_agreement":null},{"id":"W4387783352","doi":"10.1002/adma.202370299","title":"Liquid‐Templating Aerogels (Adv. Mater. 42/2023)","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Aerogels and thermal insulation","field":"Chemistry","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo; Okanagan University College; University of British Columbia, Okanagan Campus; University of British Columbia","funders":"","keywords":"Aerogel; Materials science; Microscale chemistry; Nanotechnology; Nanoparticle; Nanoscopic scale; Absorption (acoustics); Polymer; Chemical engineering; Composite material","score_opus":0.02152607443156661,"score_gpt":0.27753790936965284,"score_spread":0.2560118349380862,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387783352","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9903239,0.00004510639,0.000034820037,0.000088408735,0.0005095403,0.00009701602,0.00014296643,0.0006445805,0.008113685],"genre_scores_gemma":[0.9954259,0.00003680733,0.00045634955,0.00006860866,0.0003099086,0.00007652089,0.00023429935,0.00006496338,0.0033266814],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99854654,0.000022552793,0.0004351243,0.0003285087,0.00024576255,0.00042149078],"domain_scores_gemma":[0.9992609,0.000063101004,0.00019115536,0.00034001056,0.00006811998,0.00007672703],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00023461766,0.00021249361,0.00028244194,0.00004315676,0.00015703458,0.000077074284,0.00017572292,0.00013186724,0.003987604],"category_scores_gemma":[0.00008928919,0.00020630266,0.00005331571,0.00016832336,0.000033010685,0.0002906118,0.00012891865,0.000065260916,0.0015063105],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000107046304,0.00001214264,0.000047300706,0.0001321266,0.00001887405,0.000022753886,0.000088989815,0.00028987133,0.99720705,0.00086916686,0.00012652366,0.0010781547],"study_design_scores_gemma":[0.00040479476,0.0000248054,0.00027012228,0.000108040906,0.0000114967825,0.000006813056,0.00010236519,0.000031371314,0.9896574,0.0012093337,0.007929046,0.00024442238],"about_ca_topic_score_codex":0.000027532331,"about_ca_topic_score_gemma":0.000003140064,"teacher_disagreement_score":0.0078025223,"about_ca_system_score_codex":0.00005429069,"about_ca_system_score_gemma":0.000017862152,"threshold_uncertainty_score":0.99927115},"labels":[],"label_agreement":null},{"id":"W4388296060","doi":"10.1002/adma.202306138","title":"Fe Cluster Modified Co<sub>9</sub>S<sub>8</sub> Heterojunction: Highly Efficient Photoelectrocatalyst for Overall Water Splitting and Flexible Zinc‐Air Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Science and Technology Planning Project of Guangdong Province; Fundamental Research Funds for the Central Universities; Postdoctoral Research Foundation of China; Natural Science Foundation of Guangdong Province; National Natural Science Foundation of China","keywords":"Overpotential; Materials science; Water splitting; Heterojunction; Oxygen evolution; Bifunctional; Catalysis; Photoelectrochemical cell; Hydrogen production; Chemical engineering; Nanotechnology; Optoelectronics; Electrode; Photocatalysis; Electrochemistry; Physical chemistry; Chemistry","score_opus":0.010382798702725937,"score_gpt":0.23116807993692684,"score_spread":0.2207852812342009,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388296060","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99435,0.00006484726,0.0013001662,0.0005473698,0.0015001532,0.0008715675,0.000053773536,0.0010275781,0.00028455455],"genre_scores_gemma":[0.9955466,0.00015462954,0.00023129744,0.00080351625,0.00044947016,0.00063549686,0.001620551,0.00022470906,0.00033377964],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9956258,0.0001526707,0.0009291442,0.0011873108,0.00062543055,0.0014796738],"domain_scores_gemma":[0.99824035,0.00020811422,0.0003065314,0.00074407057,0.0002854972,0.00021545896],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00087957206,0.0007147978,0.00087550527,0.00039839436,0.000612173,0.0002090915,0.00032762683,0.0003065824,0.000024386089],"category_scores_gemma":[0.00012381503,0.0006302671,0.00020264811,0.0003288238,0.00015212747,0.0006115491,0.00030606735,0.00016953495,0.0003657012],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013901748,0.000056681056,0.0000025755292,0.000321058,0.0001402032,0.000015686506,0.0002698165,0.010207805,0.9833906,0.0010242697,0.00081452355,0.002366588],"study_design_scores_gemma":[0.0027688527,0.00037095873,0.000051046736,0.00010989869,0.00010390188,0.0000389655,0.0000559864,0.0006378494,0.98606837,0.0014558479,0.0075566866,0.000781634],"about_ca_topic_score_codex":0.0000802269,"about_ca_topic_score_gemma":0.00008608727,"teacher_disagreement_score":0.009569955,"about_ca_system_score_codex":0.00042499095,"about_ca_system_score_gemma":0.00006328564,"threshold_uncertainty_score":0.99961483},"labels":[],"label_agreement":null},{"id":"W4388408447","doi":"10.1002/adma.202310433","title":"Electrocatalytic CO<sub>2</sub> Reduction to Ethylene: From Advanced Catalyst Design to Industrial Applications","year":2023,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor","funders":"Basic Research Project of Wenzhou City; National Natural Science Foundation of China","keywords":"Materials science; Catalysis; Ethylene; Electrocatalyst; Reduction (mathematics); Nanotechnology; Chemical engineering; Process engineering; Electrode; Organic chemistry; Electrochemistry; Physical chemistry; Engineering","score_opus":0.061166648291234554,"score_gpt":0.33789149798430096,"score_spread":0.27672484969306643,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388408447","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0019859837,0.91234255,0.039918453,0.00033964595,0.0073710014,0.027024224,0.0043157507,0.006258622,0.0004437457],"genre_scores_gemma":[0.0003701378,0.9659363,0.0035247388,0.00007025942,0.0025412242,0.01938113,0.0069776443,0.00050605566,0.0006925185],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99473053,0.00032616695,0.0017613147,0.0017016554,0.0006017574,0.00087859714],"domain_scores_gemma":[0.9965275,0.00022612984,0.0008101681,0.001736778,0.0002460587,0.0004533648],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006732608,0.0010035915,0.002565221,0.0007563116,0.00026889227,0.00019123805,0.0008943486,0.0008044506,0.00014461688],"category_scores_gemma":[0.00034882777,0.0010231987,0.0003844701,0.0019819164,0.000056128985,0.00029785445,0.00026318087,0.00043307676,0.004804727],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000963892,0.000039561557,2.8133862e-9,0.000546017,0.00014840475,0.000004820492,0.000029422392,0.00016436691,0.28658605,0.00017595364,0.0028514985,0.7093575],"study_design_scores_gemma":[0.00018357608,0.000099075354,6.970391e-8,0.0016394714,0.00034517597,0.000019980194,0.000020141715,7.120674e-8,0.47047293,0.00054290163,0.5260597,0.0006169427],"about_ca_topic_score_codex":0.0002797889,"about_ca_topic_score_gemma":0.000040271567,"teacher_disagreement_score":0.7087406,"about_ca_system_score_codex":0.0010989895,"about_ca_system_score_gemma":0.0005005074,"threshold_uncertainty_score":0.99922186},"labels":[],"label_agreement":null},{"id":"W4388447167","doi":"10.1002/adma.202304615","title":"Biomimetic Nanomaterials for the Immunomodulation of the Cardiosplenic Axis Postmyocardial Infarction","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoplatforms for cancer theranostics","field":"Engineering","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Institutes of Health; Office of Research and Development; American Heart Association; U.S. Department of Veterans Affairs; National Heart, Lung, and Blood Institute; U.S. Department of Defense","keywords":"Spleen; Immune system; Myocardial infarction; Acquired immune system; Innate immune system; Immunology; Infarction; Immune modulation; Immunity; Biology; Materials science; Cell biology; Medicine; Internal medicine","score_opus":0.007881055414716152,"score_gpt":0.2146229132000825,"score_spread":0.20674185778536636,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388447167","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9890688,0.00027914674,0.00084278325,0.0000570169,0.008018007,0.0010339493,0.00041130744,0.00024884506,0.000040160456],"genre_scores_gemma":[0.998861,0.00029847556,0.00022765188,0.000017611232,0.00022026766,0.00023844116,0.00004437034,0.000056573685,0.000035570316],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99904096,0.000025353007,0.00038628117,0.00012360918,0.00018225028,0.00024156462],"domain_scores_gemma":[0.99916923,0.00019025912,0.00010316387,0.00043732888,0.00008396914,0.000016068196],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040246578,0.00015262653,0.00026518243,0.0000563396,0.0001204514,0.00003558111,0.00023047267,0.000073015195,0.00003109253],"category_scores_gemma":[0.000118723445,0.00009760879,0.0001266832,0.0002772927,0.000051605024,0.0001594875,0.000051047573,0.00002838281,0.000024906789],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000070783986,0.0000019517943,0.0000085909205,0.000074215335,0.00010496951,7.1835046e-8,0.0000967491,0.016098086,0.9802568,0.00016108119,0.00012709976,0.002999632],"study_design_scores_gemma":[0.0005478278,0.00003741974,0.004258631,0.000033126616,0.00006917749,0.0000030163462,0.000027965765,0.00028465717,0.98752475,0.001556325,0.0055298978,0.00012721932],"about_ca_topic_score_codex":0.000015711781,"about_ca_topic_score_gemma":0.0000022257832,"teacher_disagreement_score":0.015813429,"about_ca_system_score_codex":0.000087105305,"about_ca_system_score_gemma":0.000022951048,"threshold_uncertainty_score":0.3980371},"labels":[],"label_agreement":null},{"id":"W4388567264","doi":"10.1002/adma.202306704","title":"Real‐Time Spatiotemporal Measurement of Extracellular Signaling Molecules Using an Aptamer Switch‐Conjugated Hydrogel Matrix","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Science Foundation Graduate Research Fellowship Program; Natural Sciences and Engineering Research Council of Canada; Ministry of Science and ICT, South Korea; National Research Foundation of Korea; National Research Foundation; Wellcome Leap; Leona M. and Harry B. Helmsley Charitable Trust; National Science Foundation","keywords":"Aptamer; Materials science; Conjugated system; Extracellular matrix; Molecule; Nanotechnology; Matrix (chemical analysis); Biophysics; Cell biology; Polymer; Composite material; Molecular biology; Chemistry; Organic chemistry; Biology","score_opus":0.023683621533648953,"score_gpt":0.29635985185371116,"score_spread":0.2726762303200622,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388567264","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99648154,0.00013863826,0.0027772977,0.000016716074,0.00007952918,0.00025310527,0.00006208759,0.00016272602,0.000028337243],"genre_scores_gemma":[0.9669509,0.00019886531,0.032209694,0.000012612458,0.00010697267,0.000010458797,0.00036298129,0.000055802495,0.00009173077],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981162,0.00010951808,0.0005650499,0.00048907765,0.00038288368,0.00033724803],"domain_scores_gemma":[0.99869764,0.0000092332175,0.00036647203,0.00048797365,0.00035595027,0.00008271525],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00075980654,0.000262901,0.00039800684,0.000120021534,0.00009286924,0.000031744177,0.00017809597,0.00017583053,0.000012325131],"category_scores_gemma":[0.00012401488,0.00024868807,0.00010485314,0.0002374733,0.00009142911,0.000021715843,0.00009252286,0.000043172717,0.000008952957],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014136289,0.000056224908,0.000012857801,0.00003607767,0.00007135766,0.000010511638,0.000012850716,0.001355888,0.99772584,0.000021020034,0.000020395517,0.0005355864],"study_design_scores_gemma":[0.000321543,0.00020060995,0.000021023207,0.000068412905,0.00006475513,0.0000061676187,0.000056676607,0.00064088474,0.99779755,0.0002461654,0.0002749034,0.0003012877],"about_ca_topic_score_codex":0.000069538895,"about_ca_topic_score_gemma":0.0000066314665,"teacher_disagreement_score":0.029530682,"about_ca_system_score_codex":0.00003972648,"about_ca_system_score_gemma":0.00006851493,"threshold_uncertainty_score":0.99999654},"labels":[],"label_agreement":null},{"id":"W4388583200","doi":"10.1002/adma.202309838","title":"Precipitated Iodine Cathode Enabled by Trifluoromethanesulfonate Oxidation for Cathode/Electrolyte Mutualistic Aqueous Zn–I Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Fundamental Research Funds for the Central Universities; Government of Jiangsu Province; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Electrolyte; Aqueous solution; Iodide; Cathode; Redox; Materials science; Inorganic chemistry; Chemical engineering; Iodine; Chemistry; Electrode; Organic chemistry","score_opus":0.017837682920568258,"score_gpt":0.2811321529705608,"score_spread":0.26329447004999257,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388583200","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9533584,0.00037172635,0.038103648,0.00030457144,0.0008317349,0.0015878023,0.0011297927,0.0041881404,0.00012419686],"genre_scores_gemma":[0.9733036,0.0013327852,0.01801512,0.00007672151,0.00012256893,0.0027687738,0.0022057663,0.0002701495,0.0019044963],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970363,0.000095486364,0.00065489137,0.000573695,0.00036026278,0.0012793874],"domain_scores_gemma":[0.99834627,0.0006021885,0.00012724867,0.0006129213,0.00020272651,0.00010862362],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00076754333,0.00044335146,0.00064500613,0.00039257942,0.00016462992,0.00011408658,0.00048629584,0.00023424091,0.000144441],"category_scores_gemma":[0.0013767172,0.0004553363,0.000055309556,0.00080244197,0.00010397997,0.00048524843,0.00012598028,0.00017443033,0.00017681727],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023907973,0.000017140666,0.0000017443645,0.00030230757,0.000046900605,0.000014810897,0.00010333976,0.0058007133,0.97565097,0.0000884241,0.0044216644,0.013312923],"study_design_scores_gemma":[0.0012849174,0.00019260948,0.000036221645,0.000045325607,0.00002415863,0.000011639937,0.00007006049,0.0009683486,0.9782626,0.0037665803,0.014846675,0.0004908465],"about_ca_topic_score_codex":0.0000136093595,"about_ca_topic_score_gemma":0.000008475209,"teacher_disagreement_score":0.020088527,"about_ca_system_score_codex":0.00035247425,"about_ca_system_score_gemma":0.000038310834,"threshold_uncertainty_score":0.99978983},"labels":[],"label_agreement":null},{"id":"W4388765675","doi":"10.1002/adma.202304410","title":"Modular Aptamer Switches for the Continuous Optical Detection of Small‐Molecule Analytes in Complex Media","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Institutes of Health; Leona M. and Harry B. Helmsley Charitable Trust","keywords":"Aptamer; Analyte; Biosensor; Materials science; Nanotechnology; Ligand (biochemistry); SIGNAL (programming language); Biological system; Combinatorial chemistry; Computer science; Chemistry; Chromatography; Biochemistry; Biology","score_opus":0.0206445108245295,"score_gpt":0.2806937379106649,"score_spread":0.26004922708613537,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388765675","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98672557,0.0001039617,0.012571505,0.00011355569,0.00008089358,0.00028910974,0.000051939463,0.000043095224,0.000020345213],"genre_scores_gemma":[0.9940627,0.0002583903,0.0052469624,0.00006197696,0.000088728855,0.00006109983,0.00015883587,0.00002055227,0.000040705276],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99908257,0.00003224814,0.0003054598,0.00026430134,0.00009839947,0.00021701773],"domain_scores_gemma":[0.9993734,0.000073296855,0.00012392156,0.0002765573,0.00012742935,0.000025404746],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036041407,0.00013276677,0.00026229423,0.000069296104,0.000049347054,0.000014135634,0.0001366822,0.00009988238,0.000001808487],"category_scores_gemma":[0.0004047676,0.000096734526,0.000085591775,0.00019188921,0.000110903435,0.0000037776283,0.000067771485,0.000031915413,0.0000013780755],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016198256,0.000019570243,0.000029477573,0.000017418355,0.000036095047,0.0000010404472,0.000012437555,0.00010524456,0.99451965,0.000036503596,0.000024095689,0.0050365003],"study_design_scores_gemma":[0.0003355017,0.0001244469,0.0018675941,0.000013190695,0.000033352342,0.0000021590738,0.00011869909,0.00016891578,0.9957044,0.0003756328,0.0011323005,0.00012381718],"about_ca_topic_score_codex":0.000014104581,"about_ca_topic_score_gemma":0.0001081139,"teacher_disagreement_score":0.007337154,"about_ca_system_score_codex":0.00001078359,"about_ca_system_score_gemma":0.00001331527,"threshold_uncertainty_score":0.39447194},"labels":[],"label_agreement":null},{"id":"W4388850087","doi":"10.1002/adma.202310122","title":"Arresting Ion Migration from the ETL Increases Stability in Infrared Light Detectors Based on III‐V Colloidal Quantum Dots","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; National Research Council; Canadian Institutes of Health Research; STMicroelectronics; Canada Foundation for Innovation; Canadian Light Source","keywords":"Materials science; Photodetection; Quantum efficiency; Optoelectronics; Photodetector; Non-blocking I/O; Quantum dot; Ion; Active layer; Passivation; Nanotechnology; Layer (electronics)","score_opus":0.025166758187877527,"score_gpt":0.24624868255872046,"score_spread":0.22108192437084292,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388850087","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972302,0.000079117555,0.000021947748,0.00046484458,0.0010584011,0.00054067234,0.000246299,0.00026929725,0.00008927428],"genre_scores_gemma":[0.9990474,0.000038196464,0.00023861096,0.00018207911,0.00017254776,0.00021185297,0.00005533265,0.000031869127,0.000022137265],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973482,0.0006540863,0.00062950666,0.0005019122,0.00044822742,0.0004180716],"domain_scores_gemma":[0.99780613,0.0012519957,0.00025308877,0.0005439689,0.00008083415,0.00006401019],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0017322631,0.0002596688,0.00039943395,0.00009256301,0.00027197364,0.00021758517,0.00032950687,0.00010048966,0.00077559386],"category_scores_gemma":[0.0022660962,0.00017163079,0.000051122093,0.00033066198,0.000090627786,0.00034249848,0.00008910056,0.00007993462,0.00022658217],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007053553,0.000052880474,0.0011561294,0.000028483651,0.0000027786862,0.0000064840806,0.00039306417,0.00083437725,0.99634135,0.000046200817,0.000155536,0.00027736605],"study_design_scores_gemma":[0.0005253362,0.000103758226,0.02397871,0.00023673371,0.000011081446,3.5466587e-7,0.00035629116,0.0005672078,0.97192556,0.0011704937,0.0008904063,0.00023404085],"about_ca_topic_score_codex":0.0031062085,"about_ca_topic_score_gemma":0.0013291594,"teacher_disagreement_score":0.024415758,"about_ca_system_score_codex":0.00010609051,"about_ca_system_score_gemma":0.000096283584,"threshold_uncertainty_score":0.8492209},"labels":[],"label_agreement":null},{"id":"W4388941568","doi":"10.1002/adma.202302647","title":"Precise Tailoring of Lithium‐Ion Transport for Ultralong‐Cycling Dendrite‐Free All‐Solid‐State Lithium Metal Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); Western University","funders":"Engineering and Physical Sciences Research Council; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canada Foundation for Innovation; Western University; Newcastle University; University of Saskatchewan","keywords":"Materials science; Lithium metal; Lithium (medication); Solid-state; Cycling; Dendrite (mathematics); Nanotechnology; Metal; Ion; Chemical engineering; Electrode; Engineering physics; Metallurgy; Anode; Organic chemistry; Physical chemistry","score_opus":0.02237701019166536,"score_gpt":0.27803902909937656,"score_spread":0.2556620189077112,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388941568","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9819869,0.00011191053,0.008196246,0.00006419177,0.0056876657,0.0011196049,0.0016214128,0.0010214522,0.00019061232],"genre_scores_gemma":[0.98213464,0.0005005638,0.015009463,0.00005192224,0.00035675862,0.0007216698,0.00038267256,0.00024988694,0.0005924112],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99684304,0.000057640525,0.0013359986,0.00051145424,0.00039753076,0.0008543556],"domain_scores_gemma":[0.99848604,0.00023361688,0.00025815843,0.0007702014,0.00014222613,0.00010973727],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007637709,0.0005067196,0.00097051804,0.00019899648,0.00010061996,0.000064226864,0.00053287105,0.00013515085,0.00020633182],"category_scores_gemma":[0.0002137065,0.0005333602,0.000116824165,0.00025589342,0.000098765355,0.00096824294,0.000100059115,0.00009386782,0.00005921597],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024761734,0.000024005747,0.000049004677,0.0011651802,0.00013321792,0.000015005938,0.0006058798,0.029396167,0.96715486,0.00009403508,0.00027085387,0.00084414915],"study_design_scores_gemma":[0.0011474894,0.00011548905,0.00037182381,0.0002880694,0.00008482535,0.000007915334,0.000100915495,0.000043807137,0.98754734,0.0042799544,0.0054678135,0.00054453616],"about_ca_topic_score_codex":0.000008119875,"about_ca_topic_score_gemma":0.000007500204,"teacher_disagreement_score":0.02935236,"about_ca_system_score_codex":0.00009650594,"about_ca_system_score_gemma":0.000018358951,"threshold_uncertainty_score":0.9997118},"labels":[],"label_agreement":null},{"id":"W4389058043","doi":"10.1002/adma.202305703","title":"Nuclear Spin‐Depleted, Isotopically Enriched <sup>70</sup>Ge/<sup>28</sup>Si<sup>70</sup>Ge Quantum Wells","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials Characterization Techniques","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Army Research Office; HORIZON EUROPE Framework Programme; HORIZON EUROPE Reforming and enhancing the European Research and Innovation system; Mitacs; Canada Research Chairs; Natural Sciences and Engineering Research Council of Canada; European Commission; Canada Foundation for Innovation","keywords":"Germanium; Hyperfine structure; Heterojunction; Spin (aerodynamics); Materials science; Quantum dot; Quantum well; Atomic physics; Condensed matter physics; Silicon; Physics; Nanotechnology; Optoelectronics","score_opus":0.010913332912027653,"score_gpt":0.24260889638619498,"score_spread":0.23169556347416734,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4389058043","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96794665,0.00023136337,0.012760765,0.00062592246,0.0015387932,0.002808952,0.0012342302,0.011588148,0.0012651971],"genre_scores_gemma":[0.9730488,0.005069601,0.014474094,0.0011024696,0.0015773311,0.0010135631,0.0015043303,0.0011975134,0.0010122628],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9923605,0.00041597232,0.0025096291,0.0016144497,0.0009913075,0.002108156],"domain_scores_gemma":[0.99626094,0.00030267774,0.00055558636,0.001975783,0.00036483747,0.0005401688],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["metaepi_narrow","insufficient_payload"],"category_scores_codex":[0.0009545738,0.001551515,0.0021589135,0.00067914644,0.00041433366,0.0005410702,0.0013527973,0.0008385236,0.0032784725],"category_scores_gemma":[0.0006590271,0.0016634098,0.00034045835,0.0011386022,0.000253626,0.001821027,0.0006462986,0.0005109894,0.0038512577],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022737673,0.00011706854,0.00002947602,0.0010010591,0.00015314494,0.00014640942,0.0008769523,0.040335678,0.94651663,0.0037355686,0.0042021032,0.0026585609],"study_design_scores_gemma":[0.0030205634,0.00047074177,0.0005251671,0.00074656354,0.00017866255,0.00009648865,0.00060690055,0.019135423,0.7436228,0.010354252,0.21788181,0.0033606386],"about_ca_topic_score_codex":0.000037991103,"about_ca_topic_score_gemma":0.000001902627,"teacher_disagreement_score":0.21367972,"about_ca_system_score_codex":0.00046462816,"about_ca_system_score_gemma":0.0000860839,"threshold_uncertainty_score":0.9997233},"labels":[],"label_agreement":null},{"id":"W4389308488","doi":"10.1002/adma.202310822","title":"Cu‐In Dual Sites with Sulfur Defects toward Superior Ethanol Electrosynthesis from CO<sub>2</sub> Electrolysis","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"Hunan University; University of Waterloo; National Supercomputer Centre in Guangzhou; Basic and Applied Basic Research Foundation of Guangdong Province; Chinese Academy of Sciences; Canadian Light Source","keywords":"Electrosynthesis; Materials science; Catalysis; Sulfur; Carbon fibers; Electrolysis; Intercalation (chemistry); Yield (engineering); Chemical engineering; Inorganic chemistry; Electrochemistry; Physical chemistry; Chemistry; Organic chemistry; Electrolyte; Electrode","score_opus":0.010504657696718815,"score_gpt":0.2417752613869442,"score_spread":0.23127060369022537,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4389308488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99792427,0.00011099111,0.00006851747,0.00018357307,0.00013948922,0.00032100655,0.000109389555,0.0009089122,0.00023387025],"genre_scores_gemma":[0.9976962,0.00063177844,0.0003512252,0.000086526474,0.00018035782,0.0004413695,0.00041732346,0.00010209093,0.00009312622],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977552,0.00013817074,0.00043962104,0.0006198651,0.00035655484,0.000690532],"domain_scores_gemma":[0.9990753,0.00014306378,0.00014272882,0.0004604365,0.000082557446,0.00009594238],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028087877,0.00034787518,0.0006158117,0.00028410018,0.000089858135,0.000096297736,0.00016147796,0.00016600077,0.0003898426],"category_scores_gemma":[0.00012574537,0.00031657785,0.000103970626,0.00064341526,0.000056511602,0.0002845069,0.000058342426,0.00012185515,0.00032197777],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034245654,0.00004026573,0.00006365131,0.00002862365,0.00006104235,0.000080758065,0.00019736894,0.00013996272,0.99307585,0.0002330995,0.00017500916,0.005561936],"study_design_scores_gemma":[0.0005432135,0.00018073451,0.0013223019,0.000053123546,0.000056215446,0.000019889661,0.00009635071,0.000005918366,0.9942264,0.001959151,0.0011298092,0.00040690933],"about_ca_topic_score_codex":0.00049212517,"about_ca_topic_score_gemma":0.0004144027,"teacher_disagreement_score":0.005155027,"about_ca_system_score_codex":0.00016869092,"about_ca_system_score_gemma":0.00006857961,"threshold_uncertainty_score":0.99992865},"labels":[],"label_agreement":null},{"id":"W4389639545","doi":"10.1002/adma.202311105","title":"Longevous Cycling of Rechargeable Zn‐Air Battery Enabled by “Raisin‐Bread” Cobalt Oxynitride/Porous Carbon Hybrid Electrocatalysts","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan; University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; University of Waterloo; National Research Foundation of Korea; Higher Education Discipline Innovation Project; Ministry of Trade, Industry and Energy; Korea Evaluation Institute of Industrial Technology; National Natural Science Foundation of China; National Research Foundation; Canadian Light Source","keywords":"Materials science; Overpotential; Bifunctional; Battery (electricity); Cobalt; Electrocatalyst; Oxygen evolution; Cobalt oxide; Nanoparticle; Nanotechnology; Nitride; Cathode; Chemical engineering; Carbon fibers; Catalysis; Electrode; Electrochemistry; Composite material; Composite number; Layer (electronics); Metallurgy; Chemistry; Organic chemistry","score_opus":0.007782543913570017,"score_gpt":0.22740747620136276,"score_spread":0.21962493228779273,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4389639545","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99436575,0.0005027449,0.00007477417,0.00016359417,0.0010540987,0.00037514942,0.000058975897,0.0008899784,0.00251496],"genre_scores_gemma":[0.99414504,0.00062311615,0.0002524638,0.00019847334,0.00020437215,0.000121836565,0.0013883621,0.0001974165,0.0028689061],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9956457,0.00019497532,0.0011166079,0.00091497716,0.0008352206,0.0012925335],"domain_scores_gemma":[0.9975356,0.0002679485,0.00063869514,0.0010082276,0.00036156113,0.00018800721],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009938205,0.0005768406,0.0010859959,0.00041905913,0.00017581786,0.000043708085,0.00060669257,0.00022311516,0.0002137524],"category_scores_gemma":[0.00043931653,0.0006015279,0.00015042156,0.00095076504,0.0000935936,0.0004439616,0.00020969586,0.00019934439,0.00030720048],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003575213,0.00007056691,0.000023773653,0.00018035252,0.00015029692,0.00008312232,0.00006910272,0.0016791789,0.99271613,0.00031221122,0.0027048748,0.0016528509],"study_design_scores_gemma":[0.0013126847,0.00022644967,0.00003651284,0.00013070693,0.00009646116,0.000053376865,0.000051294537,0.00007293901,0.9892251,0.0025134662,0.0056881933,0.00059282855],"about_ca_topic_score_codex":0.0028578655,"about_ca_topic_score_gemma":0.00016739694,"teacher_disagreement_score":0.0034910617,"about_ca_system_score_codex":0.0004641945,"about_ca_system_score_gemma":0.00016259025,"threshold_uncertainty_score":0.9996436},"labels":[],"label_agreement":null},{"id":"W4390126640","doi":"10.1002/adma.202311019","title":"Undercoordination Chemistry of Sulfur Electrocatalyst in Lithium–Sulfur Batteries","year":2023,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Electrocatalyst; Sulfur; Materials science; Lithium (medication); Lithium–sulfur battery; Inorganic chemistry; Nanotechnology; Electrochemistry; Chemistry; Electrode; Metallurgy; Physical chemistry","score_opus":0.008189248112297801,"score_gpt":0.22349415973293763,"score_spread":0.21530491162063983,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4390126640","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972997,0.00007409135,0.00047808973,0.00008114976,0.00036842373,0.00015815,0.00006742441,0.00096105976,0.00051195227],"genre_scores_gemma":[0.99862427,0.0003460674,0.00058877113,0.000009909678,0.00004081731,0.000095895324,0.00010687423,0.000046504847,0.00014088629],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988476,0.000013870042,0.00044574513,0.00020940958,0.00013621051,0.0003471779],"domain_scores_gemma":[0.99952644,0.000046911933,0.00008163215,0.00027984337,0.00004329545,0.000021887585],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018709528,0.00019574226,0.00037300447,0.00013317412,0.000026168544,0.000025560077,0.00018908754,0.00011609616,0.000113613336],"category_scores_gemma":[0.00009590271,0.00020111572,0.000025925481,0.00040435567,0.000058186728,0.00029025562,0.00007163707,0.0000650576,0.0000383713],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020404961,0.00000853753,0.00003525689,0.00039253957,0.000010036043,0.000009670347,0.000041734154,0.0024746421,0.99530774,0.00021413153,0.0001386737,0.0013466408],"study_design_scores_gemma":[0.00029468827,0.000019700527,0.0009413549,0.000074478136,0.0000044933263,0.000005557739,0.00012639062,0.00001927562,0.9928368,0.0045195813,0.00095889514,0.00019878609],"about_ca_topic_score_codex":0.0000054325233,"about_ca_topic_score_gemma":0.000005091716,"teacher_disagreement_score":0.00430545,"about_ca_system_score_codex":0.000080651706,"about_ca_system_score_gemma":0.000012234054,"threshold_uncertainty_score":0.8201261},"labels":[],"label_agreement":null},{"id":"W4390586853","doi":"10.1002/adma.202470007","title":"3D Printed Cellulose Nanofiber Aerogel Scaffold with Hierarchical Porous Structures for Fast Solar‐Driven Atmospheric Water Harvesting (Adv. Mater. 1/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Solar-Powered Water Purification Methods","field":"Energy","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Materials science; Nanofiber; Cellulose; Aerogel; Porosity; Chemical engineering; Evaporation; Sorption; Water vapor; 3d printed; Nanotechnology; Composite material; Adsorption; Organic chemistry; Meteorology; Chemistry","score_opus":0.014014479757918587,"score_gpt":0.2713554824598349,"score_spread":0.2573410027019163,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4390586853","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9395229,0.00020175055,0.053034093,0.0002908735,0.003385642,0.0012910919,0.00018113261,0.0011150634,0.0009774545],"genre_scores_gemma":[0.55587894,0.000015511132,0.43383944,0.00016594514,0.0003969517,0.0005007489,0.00029831956,0.00027291346,0.008631188],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99619067,0.00033571216,0.0008853676,0.0011314617,0.00044848668,0.001008285],"domain_scores_gemma":[0.99836826,0.00023083386,0.00017139813,0.0007828672,0.00023073345,0.00021589281],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00062980765,0.0006382584,0.0007159218,0.0000737566,0.000221645,0.000630064,0.0004710668,0.00027168242,0.0017708093],"category_scores_gemma":[0.000112802394,0.00043980993,0.00011739359,0.000257717,0.0001749573,0.00064935815,0.00019417609,0.0001948572,0.0002386852],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00049391575,0.000041701318,0.000038025246,0.0005219228,0.00017967715,0.000079014375,0.00079916185,0.002508933,0.9750646,0.004337678,0.00016207523,0.01577331],"study_design_scores_gemma":[0.0009287586,0.00020586823,0.00020559343,0.00021781067,0.000107384905,0.00012198187,0.000070586524,0.00049740233,0.94040215,0.0054612113,0.051114425,0.0006668495],"about_ca_topic_score_codex":0.00012471154,"about_ca_topic_score_gemma":0.000027140846,"teacher_disagreement_score":0.38364393,"about_ca_system_score_codex":0.0001827937,"about_ca_system_score_gemma":0.00008469203,"threshold_uncertainty_score":0.9998054},"labels":[],"label_agreement":null},{"id":"W4390741742","doi":"10.1002/adma.202470016","title":"Electrochemically Responsive 3D Nanoarchitectures (Adv. Mater. 2/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Microactuator; Electrochemistry; Nanotechnology; Carbon nanotube; Lithium (medication); Alloy; Microstructure; Composite material; Electrode; Actuator","score_opus":0.005079438266298082,"score_gpt":0.2259208286120726,"score_spread":0.22084139034577452,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4390741742","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9810044,0.0013919328,0.004082573,0.00007353525,0.0052784774,0.0002456093,0.00015346431,0.0029200823,0.0048499275],"genre_scores_gemma":[0.97912073,0.00039687817,0.017343646,0.00012713217,0.000554221,0.00011923279,0.000069944566,0.00019767332,0.0020705466],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998185,0.000059766786,0.00047194798,0.00042814788,0.00023765184,0.00061750226],"domain_scores_gemma":[0.99927646,0.00015958596,0.000034182485,0.00035624317,0.00005879082,0.000114710725],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020966463,0.00038941044,0.00042325075,0.00016147323,0.00007344388,0.00023298209,0.00021879515,0.00013915298,0.0008658681],"category_scores_gemma":[0.00016642475,0.0003542609,0.00006234815,0.0002206706,0.00006575403,0.00029011318,0.00005664593,0.00014197515,0.0003224001],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000092398,0.0000051960337,2.580578e-7,0.00032116452,0.000047739108,0.00008434822,0.00009960554,0.017212339,0.9766531,0.00089993334,0.0010189164,0.003564991],"study_design_scores_gemma":[0.00016464725,0.000047638943,0.0000139780195,0.00021017648,0.000022168038,0.000082961036,0.000011722949,0.0001239943,0.93483907,0.0046397094,0.05943823,0.00040573557],"about_ca_topic_score_codex":0.0000054230727,"about_ca_topic_score_gemma":0.0000030860424,"teacher_disagreement_score":0.05841931,"about_ca_system_score_codex":0.00012352015,"about_ca_system_score_gemma":0.000030018613,"threshold_uncertainty_score":0.9998909},"labels":[],"label_agreement":null},{"id":"W4391065034","doi":"10.1002/adma.202310174","title":"Intestinal Delivery of Probiotics: Materials, Strategies, and Applications","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Probiotics and Fermented Foods","field":"Agricultural and Biological Sciences","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick","funders":"Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Nanotechnology","score_opus":0.03153585201640746,"score_gpt":0.2857077757564915,"score_spread":0.254171923740084,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391065034","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0017116576,0.9952046,0.000003982311,0.000012337838,0.0002790487,0.001068839,0.0014805133,0.00007152467,0.00016745011],"genre_scores_gemma":[0.0020482673,0.99642354,0.00038626255,0.000007668385,0.00025313377,0.00015970296,0.0006435177,0.000004783395,0.00007312337],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99862134,0.00006267745,0.0006090113,0.00038754847,0.00010731567,0.00021208101],"domain_scores_gemma":[0.9994092,0.00006747004,0.0003051967,0.00009191568,0.00007167245,0.000054530654],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020045658,0.00030577893,0.00093748176,0.000023900364,0.00005741676,0.00020520648,0.00023933778,0.00019348554,0.00016217814],"category_scores_gemma":[0.000011666811,0.00011256609,0.00008159334,0.00017878714,0.00009075074,0.00011637444,0.00020064635,0.00008810606,0.000042679738],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011113974,0.00004470333,3.422404e-8,0.011465101,0.00006058801,0.0000034964687,0.000005387058,9.162839e-8,0.24467339,0.0064236843,0.000043448414,0.737269],"study_design_scores_gemma":[0.00004521558,0.00025595204,0.0000027704068,0.0063946485,0.0004875158,0.000043347394,0.000054094304,6.161372e-8,0.0091801435,0.0023289714,0.98086,0.00034725925],"about_ca_topic_score_codex":0.000020996878,"about_ca_topic_score_gemma":0.000010537819,"teacher_disagreement_score":0.98081654,"about_ca_system_score_codex":0.000029956975,"about_ca_system_score_gemma":0.00005232155,"threshold_uncertainty_score":0.45903122},"labels":[],"label_agreement":null},{"id":"W4391068038","doi":"10.1002/adma.202312170","title":"Hot‐Carrier Cooling Regulation for Mixed Sn‐Pb Perovskite Solar Cells","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Natural Science Foundation of China","keywords":"Perovskite (structure); Materials science; Tin; Tandem; Chemical engineering; Crystallization; Diffusion; Thermodynamics; Metallurgy","score_opus":0.007913250582885677,"score_gpt":0.23390001715707534,"score_spread":0.22598676657418967,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391068038","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.87589663,0.00067835284,0.11468816,0.00008430576,0.0046997783,0.0008723547,0.0013534395,0.00125323,0.00047372578],"genre_scores_gemma":[0.9883894,0.00022473432,0.009712435,0.00004361477,0.00055904227,0.0004597231,0.000226534,0.00010455362,0.00027998656],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99891967,0.000016319053,0.000359649,0.0002794009,0.0001165932,0.00030838064],"domain_scores_gemma":[0.99948895,0.00006908627,0.000033890323,0.0002646707,0.0000786363,0.00006477125],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023163833,0.00020805943,0.0002574157,0.00007758788,0.00009797405,0.00024911496,0.00011779652,0.00010047129,0.00031321833],"category_scores_gemma":[0.00002414702,0.0002063015,0.00006159071,0.000117195224,0.000022608601,0.000289011,0.00002510222,0.00004168717,0.000121494435],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023464314,0.0000049762966,1.02475894e-7,0.0002981357,0.0000226741,0.0000010373338,0.00007893956,0.0061555966,0.9866666,0.0014643748,0.0023135939,0.0029705039],"study_design_scores_gemma":[0.00017611527,0.000015197658,0.000036666795,0.00009913227,0.000028150711,0.0000026321413,0.000016402284,0.002415198,0.8521989,0.0018666579,0.14292595,0.00021901836],"about_ca_topic_score_codex":0.0000038177086,"about_ca_topic_score_gemma":0.0000027529372,"teacher_disagreement_score":0.14061236,"about_ca_system_score_codex":0.00007162002,"about_ca_system_score_gemma":0.000016173744,"threshold_uncertainty_score":0.84127307},"labels":[],"label_agreement":null},{"id":"W4391339687","doi":"10.1002/adma.202312135","title":"4D Multimaterial Printing of Soft Actuators with Spatial and Temporal Control","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"H2020 Marie Skłodowska-Curie Actions; Chinese Government Scholarship; Medical Research Council; UK Regenerative Medicine Platform; China Scholarship Council; Imperial College London; Rosetrees Trust; Natural Sciences and Engineering Research Council of Canada; European Commission; Royal Academy of Engineering","keywords":"Materials science; Actuator; Soft robotics; 3D printing; Nanotechnology; Soft materials; Mechanical engineering; Engineering drawing; Composite material; Computer science; Engineering; Artificial intelligence","score_opus":0.0035133023605253377,"score_gpt":0.20353737134329772,"score_spread":0.2000240689827724,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391339687","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.78379864,0.0001594986,0.21354987,0.000008321571,0.0016007143,0.00029793038,0.00015791635,0.00038238923,0.00004473598],"genre_scores_gemma":[0.9800315,0.000058230296,0.019545099,0.000010228682,0.00019721607,0.000048000835,0.000017644852,0.00008036986,0.000011697901],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989564,0.00001814658,0.00036654435,0.00023783678,0.0001437849,0.00027730252],"domain_scores_gemma":[0.9996243,0.000045812976,0.00006188099,0.00016072826,0.00004378556,0.00006349952],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017681728,0.00023673796,0.0004135377,0.00006272283,0.00004181373,0.00010786951,0.000074102005,0.00007700786,0.00012017794],"category_scores_gemma":[0.000030455956,0.00019145233,0.000023657587,0.000056140292,0.000053526026,0.00028315734,0.00003397638,0.000048647027,0.00000666321],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016127678,0.0000072937237,0.000010246726,0.0006905922,0.00004611113,0.0000173849,0.00010442814,0.0021018109,0.9831523,0.0013494001,0.0000051399547,0.012354019],"study_design_scores_gemma":[0.00096406555,0.00012057273,0.000044123088,0.0002789909,0.00004249069,0.000021245065,0.000033601915,0.0037605583,0.9916549,0.0009057468,0.001898542,0.00027519307],"about_ca_topic_score_codex":0.000024447098,"about_ca_topic_score_gemma":0.000007991786,"teacher_disagreement_score":0.19623289,"about_ca_system_score_codex":0.00003123138,"about_ca_system_score_gemma":0.000026270256,"threshold_uncertainty_score":0.78072},"labels":[],"label_agreement":null},{"id":"W4391447960","doi":"10.1002/adma.202307454","title":"Self‐Disassembling and Oxygen‐Generating Porphyrin‐Lipoprotein Nanoparticle for Targeted Glioblastoma Resection and Enhanced Photodynamic Therapy","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoplatforms for cancer theranostics","field":"Engineering","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Shanghai Rising-Star Program; National Natural Science Foundation of China; National Key Research and Development Program of China; Shanghai Science and Technology Development Foundation","keywords":"Photodynamic therapy; Porphyrin; Materials science; Glioblastoma; Nanoparticle; Reactive oxygen species; Cancer research; Nanotechnology; Photochemistry; Medicine; Organic chemistry; Biochemistry; Chemistry","score_opus":0.0062296749908706825,"score_gpt":0.23309542906614347,"score_spread":0.2268657540752728,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391447960","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9859353,0.004113507,0.0070853247,0.000014810082,0.0011348351,0.00086453016,0.00006478528,0.0007625236,0.00002440364],"genre_scores_gemma":[0.9886241,0.0010375238,0.00960856,0.000020678905,0.00019508714,0.00036429783,0.0000139954545,0.00010610422,0.00002966772],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99888116,0.000014526722,0.00032022875,0.0003153207,0.00012656148,0.00034221826],"domain_scores_gemma":[0.99961233,0.00007586932,0.00003897835,0.00015374551,0.00005015028,0.00006894077],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023484851,0.00023677581,0.0002525739,0.00009969798,0.00012398807,0.00021159474,0.000061089704,0.000090669135,0.000021138698],"category_scores_gemma":[0.000034161007,0.00022687184,0.000030356152,0.00016472476,0.000024015124,0.00045063262,0.000023859082,0.000065205546,0.000004752322],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019459806,0.000007111678,3.0247833e-7,0.00043776032,0.000063445645,0.0000029538894,0.0003436143,0.0015331415,0.9849597,0.00015091167,0.000010313005,0.012296124],"study_design_scores_gemma":[0.0008415477,0.00026687054,0.0000112113785,0.00012607158,0.000016910088,0.0000113388205,0.000054426277,0.014149334,0.98194736,0.001264547,0.0010382842,0.0002721192],"about_ca_topic_score_codex":0.000009208649,"about_ca_topic_score_gemma":0.000033288346,"teacher_disagreement_score":0.012616193,"about_ca_system_score_codex":0.0001038022,"about_ca_system_score_gemma":0.000019071265,"threshold_uncertainty_score":0.9251565},"labels":[],"label_agreement":null},{"id":"W4391464177","doi":"10.1002/adma.202313135","title":"A Fluoride‐Rich Solid‐Like Electrolyte Stabilizing Lithium Metal Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Argonne National Laboratory; Office of Energy Efficiency; Basic and Applied Basic Research Foundation of Guangdong Province; University of Chicago; National Natural Science Foundation of China; Office of Science; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Electrolyte; Materials science; Anode; Trifluoromethanesulfonate; Chemical engineering; Lithium metal; Ionic conductivity; Conductivity; Lithium fluoride; Fluoride; Metal; Fast ion conductor; Separator (oil production); Battery (electricity); Inorganic chemistry; Electrode; Metallurgy; Chemistry; Organic chemistry; Physical chemistry; Catalysis","score_opus":0.0073020326908624315,"score_gpt":0.23383632852358693,"score_spread":0.2265342958327245,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391464177","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98081225,0.002962637,0.004278969,0.00016753319,0.0053738714,0.00034519265,0.00016693473,0.0052166446,0.0006759713],"genre_scores_gemma":[0.99361575,0.00088351854,0.004444848,0.000073185976,0.00029323186,0.00023741428,0.000039241455,0.00014988852,0.00026294964],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980572,0.000030464575,0.00054081355,0.0004571769,0.00022756611,0.00068677514],"domain_scores_gemma":[0.99931103,0.0000869452,0.000045382374,0.00044469238,0.000053115873,0.00005882464],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024574992,0.00042599515,0.00055627374,0.00017770786,0.00009502745,0.00029595962,0.00027054345,0.00015154843,0.00045065337],"category_scores_gemma":[0.00006125771,0.0003815316,0.0000695975,0.00025867845,0.000087711735,0.0008491457,0.00012283731,0.00015886988,0.00027399522],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026275215,0.000007979444,0.0000018833481,0.00042754668,0.000078397075,0.000050246377,0.000093927214,0.00069458893,0.9911249,0.0011545997,0.00072945876,0.0056101438],"study_design_scores_gemma":[0.00015522198,0.000075818454,0.000027837299,0.0001286184,0.000036472804,0.00004191855,0.00007291462,0.00010166753,0.9505139,0.00456148,0.04384274,0.0004414229],"about_ca_topic_score_codex":0.0000036186682,"about_ca_topic_score_gemma":0.0000040285036,"teacher_disagreement_score":0.043113284,"about_ca_system_score_codex":0.00013514908,"about_ca_system_score_gemma":0.000024790212,"threshold_uncertainty_score":0.9998637},"labels":[],"label_agreement":null},{"id":"W4391513437","doi":"10.1002/adma.202313096","title":"External Field‐Responsive Ternary Non‐Noble Metal Oxygen Electrocatalyst for Rechargeable Zinc‐Air Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor; University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Electrocatalyst; Materials science; Photothermal therapy; Ternary operation; Nanotechnology; Chemical engineering; Electrode; Electrochemistry; Physical chemistry; Chemistry","score_opus":0.011205863849282937,"score_gpt":0.2777049090369894,"score_spread":0.26649904518770645,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391513437","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.74033755,0.0031329943,0.24660717,0.0008593332,0.0030049798,0.0015255486,0.00048440014,0.0031282718,0.00091975305],"genre_scores_gemma":[0.96016824,0.0006845377,0.03450264,0.00019834029,0.00033143425,0.0012321196,0.00008840369,0.00018984247,0.0026044606],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979713,0.000027076749,0.00043269942,0.00050112786,0.00026784936,0.00079995434],"domain_scores_gemma":[0.9989085,0.00035428317,0.000041900348,0.0005268195,0.00009182618,0.00007666516],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028894696,0.00035583618,0.00045522398,0.00026189207,0.000111671936,0.00013829276,0.0004971355,0.00017721126,0.00041597686],"category_scores_gemma":[0.00023623,0.00033975983,0.00010571612,0.00025730324,0.00006255408,0.00079294015,0.00018063516,0.00022465494,0.00023891266],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020793054,0.000010740488,0.0000024846986,0.00046716683,0.00009790543,0.00007143559,0.00004656364,0.0011181063,0.9822913,0.00032552588,0.0030554025,0.01230543],"study_design_scores_gemma":[0.00028778522,0.00024218648,0.000024284092,0.00017227372,0.000022852393,0.000049994083,0.000053670312,0.0006727102,0.9419777,0.0065988665,0.049534213,0.00036347937],"about_ca_topic_score_codex":0.000009902753,"about_ca_topic_score_gemma":0.000006061431,"teacher_disagreement_score":0.21983068,"about_ca_system_score_codex":0.00022036323,"about_ca_system_score_gemma":0.000048047452,"threshold_uncertainty_score":0.99990547},"labels":[],"label_agreement":null},{"id":"W4391685394","doi":"10.1002/adma.202313746","title":"Sub‐Second Long Lifetime Triplet Exciton Reservoir for Highly Efficient and Stable Organic Light‐Emitting Diode","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Light-Emitting Diodes Research","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Common emitter; OLED; Exciton; Materials science; Optoelectronics; Diode; Organic electronics; Nanotechnology; Physics; Condensed matter physics; Transistor","score_opus":0.007427325384047511,"score_gpt":0.24171502955561391,"score_spread":0.2342877041715664,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391685394","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99009806,0.003777609,0.0017180344,0.0002010373,0.0018586206,0.0008320155,0.0001981529,0.0009499829,0.00036648687],"genre_scores_gemma":[0.99577963,0.00022276035,0.0018494445,0.000022937911,0.0005554004,0.00014716887,0.000043493066,0.00021169757,0.0011674617],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976509,0.00005948898,0.00057663117,0.0005699212,0.00034479683,0.00079821295],"domain_scores_gemma":[0.9987911,0.00044365117,0.000051315714,0.00043698872,0.00010353801,0.00017340008],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009870821,0.00033628393,0.0004819758,0.00019495546,0.0001509649,0.00044918415,0.00027487482,0.00016357134,0.00044335725],"category_scores_gemma":[0.00040026274,0.0003185851,0.000058497313,0.00034278637,0.000041319774,0.00032188115,0.00016849778,0.00018411165,0.00014030402],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000044000964,0.000014566169,0.00001079355,0.0017062557,0.000070185655,0.000025949324,0.00034602915,0.00026758158,0.9954617,0.00015036725,0.001522099,0.00038045263],"study_design_scores_gemma":[0.000596192,0.000074331714,0.000057915306,0.0003188348,0.000027338529,0.000017238248,0.00004996923,0.0020523884,0.9759661,0.00011146844,0.020367017,0.00036122723],"about_ca_topic_score_codex":0.0000051625043,"about_ca_topic_score_gemma":0.000010614841,"teacher_disagreement_score":0.01949564,"about_ca_system_score_codex":0.00027004885,"about_ca_system_score_gemma":0.000067371395,"threshold_uncertainty_score":0.9999266},"labels":[],"label_agreement":null},{"id":"W4391723411","doi":"10.1002/adma.202313211","title":"Dual‐Protection Inorganic‐Protein Coating on Mg‐Based Biomaterials through Tooth‐Enamel‐Inspired Biomineralization","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Magnesium Alloys: Properties and Applications","field":"Materials Science","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Canada Foundation for Innovation","keywords":"Biomineralization; Materials science; Enamel paint; Coating; Tooth enamel; Dual (grammatical number); Dual role; Nanotechnology; Chemical engineering; Composite material; Chemistry; Combinatorial chemistry","score_opus":0.025657307414608296,"score_gpt":0.2645360350058737,"score_spread":0.23887872759126538,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391723411","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9846552,0.00014113347,0.007867169,0.0015218339,0.0021143605,0.0015064707,0.0003040464,0.0011517775,0.0007380203],"genre_scores_gemma":[0.99066263,0.00002023956,0.006435903,0.00040916065,0.0005230501,0.0010041759,0.0001354954,0.000108894434,0.00070044387],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971143,0.00021278787,0.0008426134,0.0008559174,0.0004545236,0.00051984],"domain_scores_gemma":[0.9988028,0.000058249447,0.00027301488,0.00061046093,0.00017072813,0.00008478143],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006557346,0.0004132776,0.0004491446,0.00013761531,0.0003862044,0.00078241347,0.00026763446,0.00017974176,0.0032589321],"category_scores_gemma":[0.00021340512,0.0003450093,0.00007437861,0.00045224064,0.00011861887,0.0007415265,0.00010273205,0.000051726965,0.0012562331],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014401063,0.00007112338,4.367165e-7,0.00039088973,0.000007478399,0.000008730489,0.00012686031,0.0002655762,0.9897703,0.00805394,0.0003018227,0.00085886655],"study_design_scores_gemma":[0.0004851625,0.00024531464,0.000020229614,0.0003352194,0.000026799484,0.000009283925,0.000049415652,0.00020556583,0.98268825,0.002426552,0.013069121,0.00043910078],"about_ca_topic_score_codex":0.0003688663,"about_ca_topic_score_gemma":0.000015066392,"teacher_disagreement_score":0.012767299,"about_ca_system_score_codex":0.00019012808,"about_ca_system_score_gemma":0.000111629495,"threshold_uncertainty_score":0.99990016},"labels":[],"label_agreement":null},{"id":"W4391734551","doi":"10.1002/adma.202311013","title":"Engineering Dual CO<sub>2</sub>‐ and Photothermal‐Responsive Membranes for Switchable Double Emulsion Separation","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China; National Key Research and Development Program of China; Natural Science Foundation of Xinjiang Province","keywords":"Materials science; Photothermal therapy; Emulsion; Membrane; Dual (grammatical number); Chemical engineering; Nanotechnology; Photothermal effect; Separation (statistics)","score_opus":0.013103867475943734,"score_gpt":0.28605745091093265,"score_spread":0.27295358343498893,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391734551","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99307364,0.0004762726,0.0044187857,0.00006336083,0.000979251,0.0005816231,0.00012014017,0.0002515237,0.000035390014],"genre_scores_gemma":[0.9975594,0.00017162225,0.001726423,0.00002757982,0.00012902517,0.00022405341,0.000039655864,0.0000399118,0.00008231738],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989358,0.000029845733,0.00027038675,0.00034910062,0.00014765131,0.00026719697],"domain_scores_gemma":[0.9994827,0.00015841878,0.000053011474,0.0001621222,0.00008013259,0.0000635974],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037173342,0.00016104618,0.00020468608,0.00007872932,0.0001318988,0.00024062245,0.000054862692,0.00006652228,0.00011323606],"category_scores_gemma":[0.00008463884,0.00014554175,0.000027244223,0.00010007036,0.000029373736,0.0005283744,0.00003367443,0.000028597482,0.00008465007],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030630844,0.000012034357,0.0000013784082,0.0004735766,0.000005761977,0.000005620692,0.00029747252,0.0030819322,0.9944476,0.0006202194,0.000089915455,0.0006582052],"study_design_scores_gemma":[0.00054045644,0.00007466079,0.000040624313,0.00012192333,0.000017130611,0.000014269991,0.000034336907,0.0023059845,0.98756737,0.00034032116,0.00875848,0.00018445768],"about_ca_topic_score_codex":0.000008733975,"about_ca_topic_score_gemma":0.0000054661946,"teacher_disagreement_score":0.008668564,"about_ca_system_score_codex":0.000045384822,"about_ca_system_score_gemma":0.000024953544,"threshold_uncertainty_score":0.59350204},"labels":[],"label_agreement":null},{"id":"W4391777424","doi":"10.1002/adma.202310637","title":"Engineering Biomaterials to Model Immune‐Tumor Interactions In Vitro","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Context (archaeology); Immune system; Drug; Cancer; Biology; Computational biology; Immunology; Pharmacology","score_opus":0.014916980217185193,"score_gpt":0.30254252818362193,"score_spread":0.28762554796643675,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391777424","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9837728,0.00020532776,0.010834582,0.00018242848,0.003092626,0.00033772874,0.00010455657,0.0009985382,0.0004714039],"genre_scores_gemma":[0.98101383,0.000036076457,0.018322203,0.000026925733,0.00012836057,0.00023670154,0.000017256018,0.00008269893,0.00013593653],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985695,0.00002015386,0.0004516408,0.00026533482,0.00022728268,0.00046611507],"domain_scores_gemma":[0.99944705,0.00012704956,0.000011943612,0.00026402695,0.000028764984,0.00012115451],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005005161,0.00018858777,0.00028207878,0.00041146937,0.00002070563,0.00018096864,0.0002277488,0.000040469527,0.00030040983],"category_scores_gemma":[0.00032565798,0.00018985185,0.00003697462,0.00037111237,0.000016135295,0.00025709302,0.00012386464,0.000089377296,0.0006328609],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023381783,0.0000075005505,1.6194775e-7,0.0002842901,0.000014478502,0.00003347286,0.00008978566,0.050105974,0.9460625,0.0002274404,0.00014479934,0.0030061884],"study_design_scores_gemma":[0.00009967768,0.000006803807,0.000032866476,0.00028225235,0.0000031773593,0.000009519127,0.000008012095,0.049389705,0.94185466,0.00021770319,0.007906045,0.00018958293],"about_ca_topic_score_codex":0.000019446576,"about_ca_topic_score_gemma":0.000002371381,"teacher_disagreement_score":0.007761246,"about_ca_system_score_codex":0.0002509038,"about_ca_system_score_gemma":0.000028933326,"threshold_uncertainty_score":0.81343573},"labels":[],"label_agreement":null},{"id":"W4391839859","doi":"10.1002/adma.202313811","title":"Planar Cation Passivation on Colloidal Quantum Dots Enables High‐Performance 0.35–1.8 µm Broadband TFT Imager","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"National Key Research and Development Program of China; China Postdoctoral Science Foundation; Science, Technology and Innovation Commission of Shenzhen Municipality; National Natural Science Foundation of China","keywords":"Passivation; Photodiode; Materials science; Optoelectronics; Photodetector; Wafer; Quantum efficiency; Dark current; Planar; Specific detectivity; Quantum dot; Photoresistor; Nanotechnology; Layer (electronics)","score_opus":0.012331544028020917,"score_gpt":0.23384671661468012,"score_spread":0.2215151725866592,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391839859","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99376416,0.00054910453,0.00019130178,0.00060102955,0.003293077,0.0003851165,0.0003757184,0.00032071653,0.0005197452],"genre_scores_gemma":[0.9966436,0.000470608,0.0008986988,0.00017091421,0.00042332397,0.00015784259,0.000104764404,0.00005736629,0.0010728906],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977324,0.00013549268,0.00061896804,0.00060111133,0.00046318394,0.00044885217],"domain_scores_gemma":[0.99904436,0.00018535505,0.00018021827,0.00040961336,0.00010723576,0.00007319178],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00082390534,0.00030988397,0.00038487342,0.00014333698,0.00025999086,0.00054415246,0.0002471429,0.00011643277,0.0009937144],"category_scores_gemma":[0.00017752552,0.00023388803,0.000042164767,0.00016739288,0.00010374161,0.0009950191,0.000041137657,0.00007692612,0.0013264886],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043626895,0.00003910053,0.0000071670042,0.0002480363,0.000010702793,0.00000990468,0.00019460886,0.0002999891,0.9891689,0.0042332034,0.0016984345,0.0036536811],"study_design_scores_gemma":[0.00032470858,0.00024416044,0.000654992,0.0004436711,0.000022559818,0.000009176393,0.000045779565,0.00011934552,0.97833705,0.0019557222,0.017503297,0.00033952956],"about_ca_topic_score_codex":0.00012591462,"about_ca_topic_score_gemma":0.000006630057,"teacher_disagreement_score":0.015804863,"about_ca_system_score_codex":0.00013943069,"about_ca_system_score_gemma":0.00009492111,"threshold_uncertainty_score":0.99991953},"labels":[],"label_agreement":null},{"id":"W4391845009","doi":"10.1002/adma.202310043","title":"In Vivo Stimulation of Therapeutic Antigen‐Specific T Cells in an Artificial Lymph Node Matrix","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Immunotherapy and Immune Responses","field":"Immunology and Microbiology","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Biomedical Imaging and Bioengineering; National Institute of Allergy and Infectious Diseases; Johns Hopkins University; Natural Sciences and Engineering Research Council of Canada; Achievement Rewards for College Scientists Foundation; National Cancer Institute; National Institutes of Health; National Science Foundation","keywords":"Antigen; T cell; Priming (agriculture); Antigen-presenting cell; Cytotoxic T cell; Immune system; Cell biology; CD28; Biology; Materials science; Ex vivo; Tumor microenvironment; CD8; In vivo; Immunology; In vitro; Biochemistry","score_opus":0.01699153922538551,"score_gpt":0.29628958268665345,"score_spread":0.27929804346126796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391845009","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.986701,0.010538589,0.00015899359,0.000043335385,0.002117942,0.0002680304,0.00007899595,0.000049429535,0.00004366094],"genre_scores_gemma":[0.9981611,0.0012038342,0.00014888018,0.000041906922,0.000027418677,0.00002438658,0.000034673707,0.00002839975,0.0003294149],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99851114,0.00033671097,0.0005654929,0.00026704653,0.000039256553,0.00028035638],"domain_scores_gemma":[0.99947673,0.00014598234,0.00008371015,0.00025391026,0.000033138716,0.000006500906],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004428835,0.0001673302,0.0003531289,0.00028665396,0.000036914727,0.00003057902,0.00014497839,0.00018036555,0.0022868412],"category_scores_gemma":[0.000011797879,0.0001539701,0.000044304696,0.00021797775,0.000091924994,0.00034214972,0.000022061671,0.00008156601,0.00017993343],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016673493,0.0001268438,0.00007474234,0.000040466653,0.000023663624,0.000010815206,0.0006800111,0.00040184424,0.9907272,0.0012853635,0.000017649545,0.0049440693],"study_design_scores_gemma":[0.0007344832,0.00009912824,0.00321869,0.00011748135,0.0000042905526,0.0000073235715,0.00012667387,0.000008273325,0.9860309,0.0011200223,0.008372716,0.00016002684],"about_ca_topic_score_codex":0.00007146059,"about_ca_topic_score_gemma":0.000009430887,"teacher_disagreement_score":0.011460062,"about_ca_system_score_codex":0.00006408735,"about_ca_system_score_gemma":0.000055886296,"threshold_uncertainty_score":0.9986252},"labels":[],"label_agreement":null},{"id":"W4392095596","doi":"10.1002/adma.202312707","title":"From Nature‐Sourced Polysaccharide Particles to Advanced Functional Materials","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Hydrogels: synthesis, properties, applications","field":"Biochemistry, Genetics and Molecular Biology","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Russian Science Foundation","keywords":"Biocompatibility; Nanotechnology; Materials science; Raw material; Drug delivery; Surface modification; Polymer; Fabrication; Biochemical engineering; Chemical engineering; Organic chemistry; Chemistry; Composite material; Engineering","score_opus":0.010907404923477984,"score_gpt":0.25637761885166455,"score_spread":0.24547021392818658,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392095596","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933842,0.0012923252,0.0016898516,0.00082541915,0.0013085866,0.00048576648,0.0007461498,0.00016618926,0.00010155662],"genre_scores_gemma":[0.9914942,0.00010814455,0.004959419,0.0007986411,0.00095698494,0.00061535963,0.0003459768,0.000086367094,0.0006349329],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981167,0.00008284421,0.0004405306,0.0007450995,0.00022866289,0.0003861996],"domain_scores_gemma":[0.9990477,0.000036124533,0.00007716803,0.0006001363,0.000094048504,0.00014481008],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002517053,0.00028029512,0.00029191672,0.00006566352,0.0001111155,0.00016911757,0.00026661664,0.00019177805,0.0008565696],"category_scores_gemma":[0.0002614236,0.00025525203,0.00006835103,0.00012949343,0.00005667383,0.000024861825,0.00018232847,0.00007557316,0.0008230019],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027205702,0.000028751561,0.0000037013165,0.00002593536,0.00007604323,0.0000037677207,0.000058231803,0.00014580354,0.99284464,0.00029123164,0.0013551208,0.0048946943],"study_design_scores_gemma":[0.00021897502,0.000048806935,0.00023051458,0.000058516227,0.000032328113,0.0000070620276,0.000051366078,0.0000029891803,0.91851825,0.0010755397,0.07945159,0.00030406704],"about_ca_topic_score_codex":0.00007349991,"about_ca_topic_score_gemma":0.000019062643,"teacher_disagreement_score":0.07809647,"about_ca_system_score_codex":0.000050141265,"about_ca_system_score_gemma":0.000082668244,"threshold_uncertainty_score":0.99999},"labels":[],"label_agreement":null},{"id":"W4392196681","doi":"10.1002/adma.202307106","title":"Truly Tiny Acoustic Biomolecules for Ultrasound Imaging and Therapy","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute of Biomedical Imaging and Bioengineering; National Institutes of Health; California Institute of Technology","keywords":"Materials science; Biomolecule; Nanotechnology; Ultrasound; Ultrasound imaging; Acoustics","score_opus":0.007120260404246591,"score_gpt":0.2882387008534508,"score_spread":0.28111844044920425,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392196681","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9634592,0.0071503054,0.02804837,0.00019888052,0.0003149705,0.00035151487,0.00019703641,0.0001681245,0.000111618276],"genre_scores_gemma":[0.98248535,0.0032406875,0.013368111,0.00023491673,0.00022258895,0.000042917454,0.00014718865,0.000037065136,0.00022114084],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991285,0.000023500019,0.00017829676,0.00039466537,0.00006968447,0.00020532071],"domain_scores_gemma":[0.9996249,0.000037945894,0.00004315353,0.00018696616,0.00006838299,0.000038651568],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017372107,0.0001680823,0.00016080872,0.000048243317,0.00007475062,0.00010639815,0.00007045309,0.00006532173,0.0000035675193],"category_scores_gemma":[0.00009773143,0.0001351939,0.00005753402,0.000059864786,0.00008724404,0.00000884853,0.00003070094,0.000024396644,0.0000014982493],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000086924025,0.000009952499,0.0000054762268,0.00003804995,0.000036963218,0.0000032473176,0.000008929923,0.000002168136,0.97261107,0.00007105312,0.0004494728,0.026676718],"study_design_scores_gemma":[0.00022060692,0.00011061885,0.000023929257,0.000038605987,0.00002448897,0.000039290346,0.000028466393,0.000014266808,0.96109,0.0012040366,0.037017215,0.00018843006],"about_ca_topic_score_codex":0.0000024994301,"about_ca_topic_score_gemma":0.0000022876247,"teacher_disagreement_score":0.03656774,"about_ca_system_score_codex":0.000009338935,"about_ca_system_score_gemma":0.000021645514,"threshold_uncertainty_score":0.55130476},"labels":[],"label_agreement":null},{"id":"W4392234142","doi":"10.1002/adma.202309154","title":"An Integrated Deposition and Passivation Strategy for Controlled Crystallization of 2D/3D Halide Perovskite Films","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Lawrence Berkeley National Laboratory; Basic Energy Sciences; Agencia Estatal de Investigación; European Research Council; HORIZON EUROPE Framework Programme; Bundesministerium für Bildung und Forschung; Centro para el Desarrollo Tecnológico Industrial; Deutsche Forschungsgemeinschaft; Office of Science; Materials Sciences and Engineering Division; Albert Ellis Institute; U.S. Department of Energy; Bundesministerium für Wirtschaft und Energie; University of California","keywords":"Passivation; Materials science; Crystallization; Halide; Perovskite (structure); Grain size; Annealing (glass); Chemical engineering; Grain boundary; Perovskite solar cell; Thin film; Deposition (geology); Solar cell; Nanotechnology; Layer (electronics); Optoelectronics; Inorganic chemistry; Microstructure; Composite material","score_opus":0.008996909710767376,"score_gpt":0.25731527858145214,"score_spread":0.24831836887068476,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392234142","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7741041,0.00021723144,0.22403252,0.000017780541,0.000245967,0.00062494364,0.0004292101,0.00026061732,0.000067613146],"genre_scores_gemma":[0.98822415,0.00015682184,0.010301174,0.000010575152,0.000067452434,0.00043695627,0.00073919934,0.000039729806,0.000023925404],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99921095,0.000025424048,0.0003812818,0.00017621276,0.00007559669,0.00013054271],"domain_scores_gemma":[0.99962485,0.000055998444,0.000054937875,0.00012642166,0.00010147834,0.000036293884],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015997064,0.00014103371,0.00027373483,0.00007106203,0.00004489562,0.00016309343,0.000050970913,0.00007367311,0.00008097395],"category_scores_gemma":[0.000025231699,0.0001258386,0.000024752659,0.000089668974,0.000022245747,0.00036356132,0.000006007577,0.000022284918,0.0000021093977],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008543788,0.000013317677,8.2312494e-7,0.00030239942,0.00002445321,4.227924e-7,0.00006791604,0.018000852,0.9740274,0.0032995513,0.000052632142,0.0041247783],"study_design_scores_gemma":[0.0010020824,0.00010944311,0.00012303345,0.0001416174,0.000051913146,0.0000035347268,0.00006792615,0.037128896,0.95878345,0.0013699451,0.0010509364,0.00016722972],"about_ca_topic_score_codex":0.0000122032025,"about_ca_topic_score_gemma":0.000007714187,"teacher_disagreement_score":0.21412005,"about_ca_system_score_codex":0.000027720504,"about_ca_system_score_gemma":0.000015190794,"threshold_uncertainty_score":0.5131549},"labels":[],"label_agreement":null},{"id":"W4392239390","doi":"10.1002/adma.202313198","title":"Anisotropic Morphing in Bistable Kirigami through Symmetry Breaking and Geometric Frustration","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fundamental Research Funds for the Central Universities; Natural Sciences and Engineering Research Council of Canada; Mitacs; National Natural Science Foundation of China; Canada Research Chairs","keywords":"Morphing; Bistability; Frustration; Materials science; Anisotropy; Symmetry (geometry); Symmetry breaking; Condensed matter physics; Classical mechanics; Geometry; Physics; Optics; Quantum mechanics; Computer science; Optoelectronics; Mathematics","score_opus":0.00884448525955322,"score_gpt":0.23496662430312565,"score_spread":0.22612213904357242,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392239390","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9663582,0.003115178,0.027001476,0.000023790599,0.0021434457,0.00023462037,0.000051577153,0.00047511444,0.0005966262],"genre_scores_gemma":[0.98646724,0.0018211164,0.0113565065,0.000023422866,0.00014559209,0.00004205119,0.000023458122,0.00006218031,0.000058431804],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989298,0.000017300179,0.00033703202,0.00026891092,0.00012502771,0.0003219241],"domain_scores_gemma":[0.99971217,0.00004995831,0.00003004753,0.0001499034,0.000019980245,0.000037962807],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017367431,0.00019715894,0.00027648077,0.00019458045,0.000042318406,0.00018262376,0.0000694053,0.00009413567,0.00010460155],"category_scores_gemma":[0.000041228417,0.00019762239,0.000018502085,0.00041204502,0.000013816883,0.0008269691,0.00003931458,0.000080722035,0.000022456426],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009194353,0.0000061514693,0.0000034670738,0.0005370455,0.000010985755,0.000032019558,0.00009662679,0.0022477985,0.9740355,0.013019822,0.000042267315,0.009959124],"study_design_scores_gemma":[0.00035745447,0.000049815735,0.00010651118,0.00032855896,0.000016454927,0.000029611914,0.00009966773,0.0006502779,0.9622514,0.02167069,0.014113946,0.00032555775],"about_ca_topic_score_codex":0.00004204855,"about_ca_topic_score_gemma":0.000015554071,"teacher_disagreement_score":0.020109069,"about_ca_system_score_codex":0.00012033568,"about_ca_system_score_gemma":0.000013515766,"threshold_uncertainty_score":0.80588067},"labels":[],"label_agreement":null},{"id":"W4392288363","doi":"10.1002/adma.202313226","title":"Antigen Presenting Cell Mimetic Lipid Nanoparticles for Rapid mRNA CAR T Cell Cancer Immunotherapy","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CAR-T cell therapy research","field":"Medicine","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"University of Pennsylvania; National Institute of Dental and Craniofacial Research; National Institute of Diabetes and Digestive and Kidney Diseases; National Institute of Allergy and Infectious Diseases; Perelman School of Medicine, University of Pennsylvania; National Institutes of Health; Canadian Aeronautics and Space Institute; National Center for Advancing Translational Sciences; Division of Chemical, Bioengineering, Environmental, and Transport Systems; National Cancer Institute; National Science Foundation; Emerson Collective","keywords":"Materials science; Cancer immunotherapy; Immunotherapy; Cancer; Cell; Nanoparticle; Nanotechnology; Cancer research; Medicine; Biology; Biochemistry; Internal medicine","score_opus":0.02429534248655237,"score_gpt":0.3365589295503751,"score_spread":0.31226358706382273,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392288363","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97955686,0.014984016,0.00007163381,0.00043850724,0.0016722911,0.0017503006,0.000111493886,0.000349672,0.0010652425],"genre_scores_gemma":[0.9744691,0.009249627,0.0026268438,0.00022098173,0.0010153785,0.00063084334,0.000038391925,0.00023858596,0.011510237],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978012,0.000078471945,0.00048179366,0.0005379425,0.00040545437,0.0006951237],"domain_scores_gemma":[0.99888724,0.00022854871,0.0000878104,0.00047918572,0.0001793374,0.00013785856],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006138005,0.00027444935,0.0005229155,0.00015149,0.00010010527,0.00016907549,0.00018578887,0.00010602596,0.003912481],"category_scores_gemma":[0.000046854664,0.00023632245,0.00017005313,0.0002399351,0.00008354103,0.00018981779,0.000060935534,0.000119524346,0.00008525436],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007296796,0.00009178772,0.00007009963,0.00091948616,0.000098367884,0.000028686536,0.0004699741,0.00002558361,0.9739197,0.000026863994,0.0009426305,0.022677151],"study_design_scores_gemma":[0.0015547738,0.00022889671,0.00013222826,0.0001602925,0.000039721563,0.00000794695,0.00006961993,0.000043088887,0.7696784,0.00013685238,0.22775602,0.00019213649],"about_ca_topic_score_codex":0.0000918356,"about_ca_topic_score_gemma":0.000004663531,"teacher_disagreement_score":0.2268134,"about_ca_system_score_codex":0.0001532746,"about_ca_system_score_gemma":0.00020287654,"threshold_uncertainty_score":0.9969981},"labels":[],"label_agreement":null},{"id":"W4392469401","doi":"10.1002/adma.202312618","title":"Orbital Occupancy Modulation to Optimize Intermediate Absorption for Efficient Electrocatalysts in Water Electrolysis and Zinc–Ethanol–Air Battery","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Postdoctoral Research Foundation of China; National Natural Science Foundation of China","keywords":"Materials science; Catalysis; Electrolysis; Dielectric spectroscopy; Adsorption; Electrolysis of water; Electrochemistry; Raman spectroscopy; Electrocatalyst; Absorption spectroscopy; Absorption (acoustics); Inorganic chemistry; Chemical engineering; Electrode; Physical chemistry; Chemistry; Electrolyte; Organic chemistry","score_opus":0.005894097637815558,"score_gpt":0.23868746785210354,"score_spread":0.23279337021428798,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392469401","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906963,0.00023100364,0.007033458,0.00033996493,0.0007562328,0.0005761109,0.0000116426345,0.0002644359,0.00009084073],"genre_scores_gemma":[0.99696577,0.000043852502,0.0014105198,0.00013949751,0.00019144919,0.00044947927,0.00047862512,0.000092038725,0.00022876487],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975485,0.000071011906,0.00058134645,0.00075682095,0.0003021244,0.0007401994],"domain_scores_gemma":[0.9992916,0.00010135699,0.00006920791,0.00031339706,0.000116304174,0.000108139386],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005590443,0.0003458553,0.0004628895,0.0005451378,0.00007794267,0.00010607835,0.00016975908,0.00015105978,0.00007363138],"category_scores_gemma":[0.000094290954,0.00029262868,0.00008988694,0.00031854914,0.000030030375,0.00040891126,0.000102368795,0.00010068981,0.000120880744],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006228977,0.000033994776,0.0000056579674,0.00014433145,0.00005515744,0.000015267238,0.0003030711,0.01951634,0.97363806,0.0009030755,0.000042654712,0.004719519],"study_design_scores_gemma":[0.00081883464,0.00025743817,0.00017204696,0.0001287817,0.00005336429,0.000020141413,0.000016335944,0.003646788,0.99221635,0.0014721802,0.0008210836,0.00037662967],"about_ca_topic_score_codex":0.00013762116,"about_ca_topic_score_gemma":0.00014465587,"teacher_disagreement_score":0.018578341,"about_ca_system_score_codex":0.00050877413,"about_ca_system_score_gemma":0.000041382333,"threshold_uncertainty_score":0.9999526},"labels":[],"label_agreement":null},{"id":"W4392713521","doi":"10.1002/adma.202310683","title":"Structural Design for EMI Shielding: From Underlying Mechanisms to Common Pitfalls","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electromagnetic wave absorption materials","field":"Materials Science","cited_by":356,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia, Okanagan Campus; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Materials science; EMI; Electromagnetic shielding; Electromagnetic interference; Nanotechnology; Composite material; Electronic engineering; Engineering","score_opus":0.052471089751298945,"score_gpt":0.322426601359418,"score_spread":0.26995551160811904,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392713521","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.85733074,0.0001823939,0.13484746,0.00043748462,0.0046384297,0.0013834987,0.0005453134,0.00058642955,0.00004823322],"genre_scores_gemma":[0.8035097,0.000010998976,0.19500448,0.00042137847,0.00028046835,0.0003758489,0.00007252095,0.00009163325,0.00023295068],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997084,0.00021616822,0.0007293576,0.0008468295,0.00039962243,0.0007240265],"domain_scores_gemma":[0.9984438,0.00062222517,0.00014159258,0.00050137215,0.00011139648,0.00017965362],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001069239,0.0003920543,0.0006084349,0.00014102609,0.0002063439,0.0008830863,0.00049965817,0.00015740017,0.003371204],"category_scores_gemma":[0.00024727528,0.00035923056,0.00007873855,0.0001702996,0.000046330235,0.0005017884,0.00014823473,0.00006371998,0.0006835644],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002406889,0.000008049197,2.1077581e-7,0.00008942663,0.00001679228,0.000011786531,0.00022506207,0.0005905985,0.9808835,0.016639575,0.00052931265,0.0007650418],"study_design_scores_gemma":[0.00032603202,0.00037760104,0.000039081588,0.00015729002,0.00004083244,0.000009573395,0.00004715732,0.00007502413,0.80993104,0.1879594,0.00065323926,0.0003837442],"about_ca_topic_score_codex":0.00008880658,"about_ca_topic_score_gemma":0.00001498675,"teacher_disagreement_score":0.17131983,"about_ca_system_score_codex":0.00018598937,"about_ca_system_score_gemma":0.0000860775,"threshold_uncertainty_score":0.999886},"labels":[],"label_agreement":null},{"id":"W4392807007","doi":"10.1002/adma.202400311","title":"Multiphase Under‐Liquid Biofabrication With Living Soft Matter: A Route to Customize Functional Architectures With Microbial Nanocellulose","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Pickering emulsions and particle stabilization","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canada Foundation for Innovation","keywords":"Nanocellulose; Biofabrication; Materials science; Soft matter; Nanotechnology; Bacterial cellulose; Lyotropic; Cellulose; Chemical engineering; Colloid; Composite material; Liquid crystalline; Polymer; Tissue engineering","score_opus":0.008788320671587387,"score_gpt":0.23422969038878644,"score_spread":0.22544136971719905,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392807007","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8998398,0.00006779111,0.09830673,0.00035415404,0.0005263842,0.000438394,0.00012687722,0.0002807912,0.000059067308],"genre_scores_gemma":[0.9853156,0.000003997718,0.013671634,0.00029144596,0.00015215589,0.0001431459,0.000034547596,0.000055025772,0.00033244147],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99842954,0.00008874378,0.0002999041,0.00055846834,0.00026684624,0.00035647556],"domain_scores_gemma":[0.9992227,0.0001462566,0.00008115252,0.0003177299,0.00011217304,0.00011996287],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00029325575,0.00023654844,0.00023412176,0.00013332219,0.00017461367,0.00028652983,0.00013562977,0.000050835268,0.0010120652],"category_scores_gemma":[0.00005852772,0.00016854485,0.000027032787,0.0002754637,0.00008002315,0.00025291718,0.000073244286,0.000053823544,0.00055999926],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011302888,0.00005333417,0.000040473988,0.00011772467,0.000011921601,0.000009077177,0.00037944052,0.027641116,0.96987957,0.00012736891,0.00013486732,0.00047483202],"study_design_scores_gemma":[0.0004790423,0.00032839814,0.0008247797,0.0004352395,0.000034230885,0.000060863535,0.000059594637,0.00014582979,0.99507,0.00008420013,0.0021654796,0.0003123698],"about_ca_topic_score_codex":0.000071026545,"about_ca_topic_score_gemma":0.000063495034,"teacher_disagreement_score":0.085475795,"about_ca_system_score_codex":0.00011811374,"about_ca_system_score_gemma":0.000100240344,"threshold_uncertainty_score":0.9999011},"labels":[],"label_agreement":null},{"id":"W4392922805","doi":"10.1002/adma.202313657","title":"A Two‐Decade Journey of Continuous Innovation at the National Center for Nanoscience and Technology of China (NCNST)","year":2024,"lang":"en","type":"editorial","venue":"Advanced Materials","topic":"Nanoparticles: synthesis and applications","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Nanotechnology; Engineering; Impact of nanotechnology; Political science; China; Engineering ethics; Materials science; Societal impact of nanotechnology","score_opus":0.011662931843717432,"score_gpt":0.30753495130795094,"score_spread":0.2958720194642335,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392922805","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8199803,0.00045604582,0.00018813554,0.00092042127,0.17059153,0.0010821924,0.0065864553,0.000062313906,0.00013255463],"genre_scores_gemma":[0.91793066,0.00039031007,0.0079954,0.000060271097,0.0708915,0.001264896,0.00028199467,0.00009496083,0.0010899842],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99803436,0.000041765208,0.0007712026,0.00040458847,0.0005227109,0.00022537391],"domain_scores_gemma":[0.9977715,0.00038352612,0.0007462916,0.00024206971,0.00083610864,0.000020511272],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0012219917,0.00018411664,0.000456289,0.00019647593,0.0001341748,0.00006721407,0.00037202387,0.0002039498,0.000083629355],"category_scores_gemma":[0.0017074576,0.0001283867,0.000035364545,0.0004399617,0.000432602,0.00012468049,0.00022373344,0.0000786351,0.0000126522045],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000053086995,0.00003381828,0.0000016728592,0.00016674511,0.000008402782,1.5691855e-7,0.00004156937,0.0000047311073,0.91031194,0.0074971593,0.081471644,0.00040905862],"study_design_scores_gemma":[0.00033482988,0.000059194263,0.000006212691,0.0001819755,0.000026018999,0.000002958786,0.000018132809,0.000001922796,0.80404246,0.009468003,0.18575613,0.00010216498],"about_ca_topic_score_codex":0.000011953933,"about_ca_topic_score_gemma":0.000008637725,"teacher_disagreement_score":0.1062695,"about_ca_system_score_codex":0.00007710624,"about_ca_system_score_gemma":0.00018640391,"threshold_uncertainty_score":0.5235458},"labels":[],"label_agreement":null},{"id":"W4393067989","doi":"10.1002/adma.202400084","title":"A Biomimetic “Salting Out—Alignment—Locking” Tactic to Design Strong and Tough Hydrogel","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":172,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canada Research Chairs; National Science Foundation","keywords":"Self-healing hydrogels; Materials science; Gelatin; Toughness; Soft robotics; Ultimate tensile strength; Soft materials; Composite material; Brittleness; Mechanical strength; Nanotechnology; Polymer; Actuator; Polymer chemistry; Computer science; Chemistry; Artificial intelligence","score_opus":0.01796647243659098,"score_gpt":0.257790739555017,"score_spread":0.23982426711842605,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393067989","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.6421877,0.0018037271,0.34727722,0.00007265837,0.0058950656,0.0008961024,0.000100190526,0.001401925,0.0003654222],"genre_scores_gemma":[0.95587724,0.00029374656,0.043094285,0.00006577547,0.00021602388,0.00014674598,0.000009085152,0.00012790321,0.00016921083],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998541,0.000028634686,0.00038618266,0.00038372297,0.00017105795,0.0004894127],"domain_scores_gemma":[0.9994414,0.00010608429,0.00003575493,0.000242543,0.000026046031,0.00014820202],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00033174502,0.0003014402,0.0003625845,0.00011569269,0.00007106309,0.00020512393,0.00011505107,0.00008169129,0.00012544432],"category_scores_gemma":[0.00008883742,0.000294882,0.000029554327,0.00012512642,0.000015248933,0.00033874426,0.000086975204,0.00006256699,0.00014133839],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024743918,0.000005898789,1.5025435e-7,0.00030361442,0.00003290757,0.00003008297,0.00024736053,0.0079269875,0.9830442,0.0019107147,0.00014724572,0.006326089],"study_design_scores_gemma":[0.00023976203,0.00008990569,0.0000014041764,0.0003108924,0.000040159914,0.000021540709,0.00007286774,0.001441055,0.981201,0.004515767,0.011707304,0.00035832523],"about_ca_topic_score_codex":0.0000039261586,"about_ca_topic_score_gemma":0.0000016243229,"teacher_disagreement_score":0.31368953,"about_ca_system_score_codex":0.0001268422,"about_ca_system_score_gemma":0.000018735327,"threshold_uncertainty_score":0.99995035},"labels":[],"label_agreement":null},{"id":"W4393083100","doi":"10.1002/adma.202403285","title":"Three Decades of Materials Research Excellence at CityU: A Special Issue Dedicated to the 30th Anniversary of City University of Hong Kong","year":2024,"lang":"en","type":"editorial","venue":"Advanced Materials","topic":"X-ray Diffraction in Crystallography","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Excellence; Materials science; Library science; Engineering physics; Engineering ethics; Nanotechnology; Engineering; Political science; Computer science","score_opus":0.0254157396456993,"score_gpt":0.3122061432657699,"score_spread":0.2867904036200706,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393083100","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.63404095,0.00020176634,0.000119295175,0.00018269685,0.3564822,0.0012358835,0.0072166435,0.000088867506,0.00043170745],"genre_scores_gemma":[0.49724346,0.0020528203,0.0055391802,0.000022205952,0.49198562,0.00006478199,0.0005407415,0.00028019524,0.0022710022],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9930311,0.0007781413,0.0013576087,0.0012124337,0.0028083627,0.0008123699],"domain_scores_gemma":[0.9935228,0.0015550994,0.0013897677,0.001443443,0.0018887667,0.00020008434],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0042325165,0.0005622174,0.0016395116,0.0007568604,0.00034425614,0.0001230325,0.0023520638,0.0008587571,0.00825093],"category_scores_gemma":[0.0017691136,0.00049712753,0.00022571576,0.0011756308,0.0015299692,0.00042154588,0.0019919134,0.0004742415,0.00026498738],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012460181,0.0000694254,0.0000132159885,0.0009270076,0.00006311217,0.000024365556,0.00048823335,0.000043231837,0.6139782,0.00004819955,0.38304844,0.000050531722],"study_design_scores_gemma":[0.00044178747,0.00024655068,0.00014920495,0.00089733925,0.00011731316,0.0000020525854,0.0006378146,2.9943772e-7,0.65619874,0.0007704064,0.34022477,0.00031371595],"about_ca_topic_score_codex":0.00202351,"about_ca_topic_score_gemma":0.0006284742,"teacher_disagreement_score":0.13679747,"about_ca_system_score_codex":0.00039715113,"about_ca_system_score_gemma":0.00059411954,"threshold_uncertainty_score":0.99974805},"labels":[],"label_agreement":null},{"id":"W4393200175","doi":"10.1002/adma.202401856","title":"Stabilizing Ni<sup>2+</sup> in Hollow Nano MOF/Polymetallic Phosphides Composites for Enhanced Electrochemical Performance in 3D‐Printed Micro‐Supercapacitors","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"National Natural Science Foundation of China","keywords":"Materials science; Bimetallic strip; Phosphide; Supercapacitor; Nanocomposite; Electrochemistry; Electrolyte; Composite number; Chemical engineering; Nanostructure; Nanoparticle; Nano-; Nanotechnology; Composite material; Electrode; Metal; Metallurgy; Physical chemistry","score_opus":0.010418405130350715,"score_gpt":0.2545875531410053,"score_spread":0.24416914801065456,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393200175","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99502116,0.00088054815,0.00059348874,0.00008730234,0.0014558663,0.0013049067,0.0001837116,0.00032869607,0.00014429228],"genre_scores_gemma":[0.9872995,0.00033431308,0.010698187,0.00013110419,0.0002638108,0.0008686578,0.00011786705,0.00011178788,0.00017476673],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99593735,0.00017139368,0.001275682,0.0010979988,0.00035975192,0.0011578513],"domain_scores_gemma":[0.9987895,0.00030624168,0.00014739184,0.0005126249,0.00011716507,0.0001270761],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0012355095,0.0005805389,0.0010480706,0.00036222808,0.00012227985,0.00040815276,0.0005214307,0.00023750456,0.00088508346],"category_scores_gemma":[0.00026948415,0.0005425724,0.000114053226,0.00046843902,0.0001651066,0.0010028419,0.00017156631,0.00015153429,0.00016618209],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00064928184,0.00012476795,0.000059240607,0.0007979029,0.000017371724,0.000013644896,0.00067680853,0.00031952554,0.99629253,0.00026295742,0.000030427453,0.000755552],"study_design_scores_gemma":[0.001307373,0.00022029779,0.000056890956,0.0007506606,0.000028217288,0.000016436406,0.00017550463,0.0002454453,0.9946452,0.00053422275,0.0013924878,0.00062731485],"about_ca_topic_score_codex":0.000109669076,"about_ca_topic_score_gemma":0.000034256682,"teacher_disagreement_score":0.010104699,"about_ca_system_score_codex":0.0003567963,"about_ca_system_score_gemma":0.00015303257,"threshold_uncertainty_score":0.9997026},"labels":[],"label_agreement":null},{"id":"W4393260582","doi":"10.1002/adma.202470097","title":"Engineered Nanomaterials to Potentiate CRISPR/Cas9 Gene Editing for Cancer Therapy (Adv. Mater. 13/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Nanomaterials in Catalysis","field":"Materials Science","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; McGill University Health Centre","funders":"","keywords":"CRISPR; Materials science; Genome editing; Nanomaterials; Genetic enhancement; Nanotechnology; Cancer therapy; Cancer research; Cancer; Gene; Biology; Genetics","score_opus":0.017898396618870157,"score_gpt":0.3127465140498371,"score_spread":0.29484811743096695,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393260582","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93063015,0.0026995249,0.017781876,0.0005533995,0.03770277,0.0026069938,0.006398895,0.0015193159,0.000107100095],"genre_scores_gemma":[0.92754626,0.0010825538,0.058463417,0.0006625979,0.004356809,0.004734894,0.00039128948,0.00047969486,0.0022825073],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9937392,0.00021180754,0.0017450537,0.0018732236,0.000762058,0.0016686408],"domain_scores_gemma":[0.99726516,0.0003376546,0.00041455144,0.001148094,0.0004642928,0.0003702468],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0018419896,0.0010098786,0.0015125765,0.00047827326,0.00041951658,0.0012964068,0.0010073205,0.00031121212,0.0061596762],"category_scores_gemma":[0.00043544182,0.0009082322,0.00027327807,0.0006079311,0.00013039235,0.0014143182,0.000389074,0.00009588923,0.0010765917],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005755207,0.000053697306,0.0000021998894,0.0005461219,0.00010886484,0.00007319968,0.00033526757,0.0019401694,0.98980266,0.0004145321,0.0018612931,0.004286486],"study_design_scores_gemma":[0.0009911397,0.00021425713,0.000026088368,0.00040172375,0.0001135571,0.00006739484,0.00006621559,0.000033506032,0.9450876,0.0020300264,0.049961284,0.0010072121],"about_ca_topic_score_codex":0.00010180274,"about_ca_topic_score_gemma":0.000013676169,"teacher_disagreement_score":0.04809999,"about_ca_system_score_codex":0.00043700056,"about_ca_system_score_gemma":0.0001872491,"threshold_uncertainty_score":0.99974036},"labels":[],"label_agreement":null},{"id":"W4393319589","doi":"10.1002/adma.202401689","title":"Bioinspired Bottlebrush Polymers Effectively Alleviate Frictional Damage Both In Vitro and In Vivo","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Knee injuries and reconstruction techniques","field":"Medicine","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Biomomentum (Canada); Michelin (Canada); Centre Hospitalier Universitaire Sainte-Justine; Université de Montréal","funders":"Faculté de pharmacie, Université de Montréal; Canada First Research Excellence Fund; Division of Materials Research; Fonds de recherche du Québec – Nature et technologies; Fonds de Recherche du Québec - Santé; Institut TransMedTech; Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Biocompatibility; Lubrication; Lubricant; Polymer; Tribology; In vivo; Cartilage; Nanotechnology; Hyaluronic acid; Biomedical engineering; Composite material; Metallurgy; Medicine; Anatomy","score_opus":0.005782952515529688,"score_gpt":0.26582594156371087,"score_spread":0.2600429890481812,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393319589","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962171,0.00072472024,0.00012543352,0.00053286826,0.00063756644,0.00038117878,0.000117202755,0.00018350723,0.0010804455],"genre_scores_gemma":[0.9963504,0.00064944034,0.0022962778,0.000120014316,0.000099517645,0.00007913793,0.000007823065,0.00002522446,0.000372179],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99907875,0.000042251744,0.0003178391,0.0002677541,0.000105607585,0.00018781605],"domain_scores_gemma":[0.99972934,0.000064042724,0.000043678996,0.00009626147,0.000016424123,0.000050231876],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002273533,0.00013474707,0.00033139752,0.00029596384,0.000025156936,0.000029942998,0.000028960854,0.0000843192,0.0003568964],"category_scores_gemma":[0.000037549376,0.00010387508,0.00003489524,0.00015317638,0.00007170752,0.00017669023,0.000028531304,0.000072156276,0.0000074004383],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00047791892,0.000019075485,0.00031085362,0.00016039165,0.000015287129,0.000057474754,0.000046358855,2.698517e-7,0.9866222,0.00048206665,0.00007308689,0.011735028],"study_design_scores_gemma":[0.0008216527,0.00009802996,0.008073164,0.00046043567,0.000011160014,0.00006127634,0.000040005198,0.000006606729,0.9844412,0.0009350549,0.004928632,0.00012278644],"about_ca_topic_score_codex":0.00005947654,"about_ca_topic_score_gemma":0.0000100236575,"teacher_disagreement_score":0.011612241,"about_ca_system_score_codex":0.000104786275,"about_ca_system_score_gemma":0.000049332433,"threshold_uncertainty_score":0.42359027},"labels":[],"label_agreement":null},{"id":"W4393379460","doi":"10.1002/adma.202313629","title":"Mechanical Control of Quantum Transport in Graphene","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"Natural Sciences and Engineering Research Council of Canada; Concordia University; Canada Foundation for Innovation","keywords":"Materials science; Graphene; Nanotechnology; Quantum; Quantum control; Control (management); Quantum mechanics; Computer science; Artificial intelligence; Physics","score_opus":0.013537042931209829,"score_gpt":0.2949197513574518,"score_spread":0.28138270842624197,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393379460","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9800804,0.0003367773,0.018178966,0.00025204,0.00031029186,0.00035037493,0.00029427838,0.000096347176,0.000100478486],"genre_scores_gemma":[0.9986516,0.00017015802,0.0008942719,0.000024111601,0.00003313371,0.00017937414,0.000012716131,0.000016753129,0.000017858158],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99867964,0.000063026644,0.00041145645,0.00028560407,0.0002634752,0.00029678288],"domain_scores_gemma":[0.9994975,0.00010207784,0.000042708318,0.00023247213,0.000055109947,0.000070178976],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00068355893,0.00010820892,0.00028192287,0.00012724643,0.000026626547,0.00002633148,0.00019800906,0.000043970944,0.00061996945],"category_scores_gemma":[0.0000447565,0.00009067191,0.0000545353,0.00029409392,0.00007851985,0.00021758897,0.000016006072,0.000050581635,0.00009511148],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007025067,0.00004033699,0.000008761608,0.000093649796,0.000004269838,0.00001100089,0.000026612315,0.00005473783,0.8937171,0.10564809,0.000014086645,0.0003110674],"study_design_scores_gemma":[0.00038012877,0.00006260815,0.00071432075,0.000090316804,0.000008135531,0.0000031152988,0.00002288322,0.00007114487,0.96417063,0.033603426,0.00077936996,0.000093927956],"about_ca_topic_score_codex":0.000084528314,"about_ca_topic_score_gemma":0.000020474996,"teacher_disagreement_score":0.07204467,"about_ca_system_score_codex":0.000020613721,"about_ca_system_score_gemma":0.00006463868,"threshold_uncertainty_score":0.6788231},"labels":[],"label_agreement":null},{"id":"W4393857644","doi":"10.1002/adma.202401858","title":"Biomass Solid‐State Electrolyte with Abundant Ion and Water Channels for Flexible Zinc–Air Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Electrolyte; Conductivity; Power density; Nanotechnology; Quasi-solid; Chemical engineering; Electrode; Power (physics); Chemistry","score_opus":0.00989619627843558,"score_gpt":0.26456184307909403,"score_spread":0.25466564680065845,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393857644","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93053675,0.0006367397,0.06410439,0.0005336845,0.0007562019,0.00076355843,0.00014408454,0.00244703,0.00007755045],"genre_scores_gemma":[0.9928901,0.00037768806,0.0051937113,0.0000409686,0.00010417976,0.00062805146,0.00005460385,0.00014129067,0.0005694002],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983344,0.000014497774,0.00027718354,0.00041259374,0.00017884462,0.00078245654],"domain_scores_gemma":[0.99949086,0.00007060179,0.000019053437,0.00029352316,0.000062581596,0.00006338067],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018893501,0.0003077881,0.0003538876,0.00021459539,0.00010250914,0.00019780357,0.00017770243,0.00008848163,0.000054108245],"category_scores_gemma":[0.000020166915,0.00021481841,0.000028834387,0.00014599765,0.00012958916,0.00056953693,0.000104605155,0.0001054951,0.00004614969],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016153355,0.0000061154024,0.0000016833445,0.0007750368,0.000065547465,0.000030137659,0.000109550405,0.0024363373,0.9879317,0.00017523427,0.00016682861,0.00814026],"study_design_scores_gemma":[0.00038024216,0.0003077717,0.000009612308,0.00014170654,0.000011525398,0.00005285187,0.000034600216,0.00048541688,0.96738076,0.007286951,0.023580555,0.0003279779],"about_ca_topic_score_codex":0.000003220728,"about_ca_topic_score_gemma":0.0000047906306,"teacher_disagreement_score":0.06235335,"about_ca_system_score_codex":0.00010991529,"about_ca_system_score_gemma":0.000014515518,"threshold_uncertainty_score":0.8760041},"labels":[],"label_agreement":null},{"id":"W4393995027","doi":"10.1002/adma.202314120","title":"Mechanisms of the Accelerated Li<sup>+</sup> Conduction in MOF‐Based Solid‐State Polymer Electrolytes for All‐Solid‐State Lithium Metal Batteries","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":189,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Natural Science Foundation of China","keywords":"Materials science; Electrolyte; Fast ion conductor; Ionic conductivity; Polymer; Lithium metal; Lithium (medication); Nanotechnology; Polymer electrolytes; Conductivity; Flexibility (engineering); Metal-organic framework; Solid-state; Metal; Electrode; Engineering physics; Physical chemistry; Composite material; Chemistry; Adsorption","score_opus":0.03093418346769072,"score_gpt":0.30531838779515247,"score_spread":0.27438420432746174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393995027","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.021983499,0.9540952,0.0068382556,0.0001395014,0.0050201593,0.005200955,0.004746302,0.0019337651,0.000042382333],"genre_scores_gemma":[0.03554961,0.95755124,0.0021509973,0.00009319799,0.00014972023,0.0029832083,0.00051117304,0.0005783223,0.00043250862],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99602497,0.00016295977,0.0018232029,0.00076070696,0.00029925627,0.00092892244],"domain_scores_gemma":[0.9983061,0.00017261945,0.0005242453,0.000813699,0.00012512684,0.000058227037],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00043532613,0.0011109734,0.0029311099,0.0004527812,0.00008477997,0.00019765548,0.0007152058,0.00044822265,0.0001041549],"category_scores_gemma":[0.000116995194,0.00078759156,0.00041412818,0.0005525187,0.00015951009,0.0004602161,0.00021056684,0.00036859166,0.000033033783],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000966762,0.000046474455,5.10248e-8,0.02414142,0.0005350859,0.0000151711165,0.00008603552,0.006663794,0.92051125,0.00047550496,0.00019450595,0.04723403],"study_design_scores_gemma":[0.00044093307,0.00014264029,2.4816237e-7,0.0043407343,0.0005405751,0.000021799926,0.000029405828,0.0001653334,0.92484677,0.007819564,0.060867146,0.00078487874],"about_ca_topic_score_codex":0.000012958845,"about_ca_topic_score_gemma":0.0000101616215,"teacher_disagreement_score":0.060672637,"about_ca_system_score_codex":0.0002457745,"about_ca_system_score_gemma":0.00013607708,"threshold_uncertainty_score":0.9994575},"labels":[],"label_agreement":null},{"id":"W4394714638","doi":"10.1002/adma.202404053","title":"Metal–Drug Coordination Nanoparticles and Hydrogels for Enhanced Delivery","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoparticle-Based Drug Delivery","field":"Materials Science","cited_by":97,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Science Foundation of Hunan Province; Hong Kong Government; National Natural Science Foundation of China","keywords":"Materials science; Self-healing hydrogels; Drug delivery; Nanoparticle; Nanotechnology; Metal; Drug; Chemical engineering; Metallurgy; Polymer chemistry; Pharmacology","score_opus":0.009937827813137297,"score_gpt":0.25284213421994084,"score_spread":0.24290430640680355,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4394714638","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933564,0.0017265242,0.0015703586,0.0004648258,0.0014784832,0.000694902,0.00022230692,0.00042491738,0.00006126374],"genre_scores_gemma":[0.9924586,0.00009234605,0.006314326,0.00016806877,0.00014812232,0.00035462997,0.000021606409,0.000052053194,0.00039028036],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980968,0.000104409875,0.0004745131,0.000593015,0.00027452328,0.0004566935],"domain_scores_gemma":[0.9989828,0.00037559998,0.000103686245,0.00026667552,0.00015925348,0.000111974994],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00091154996,0.0002412041,0.00035050162,0.00010600532,0.00016042145,0.00032674498,0.00016167347,0.00005652305,0.00031582394],"category_scores_gemma":[0.00019915553,0.00021857079,0.000058190555,0.00016782392,0.00012143114,0.0010262484,0.00009117701,0.0000382624,0.00029347133],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016056946,0.000035381763,0.0000011984681,0.00020152428,0.000016138032,0.000008823045,0.00017443341,0.00011623064,0.99021584,0.0027178947,0.0002841775,0.006067808],"study_design_scores_gemma":[0.00060795987,0.000094311035,0.000011135872,0.00011635286,0.000071932394,0.000009542407,0.000071709495,0.00015821487,0.989379,0.005206883,0.0039966526,0.0002762974],"about_ca_topic_score_codex":0.000021824459,"about_ca_topic_score_gemma":0.000010830431,"teacher_disagreement_score":0.00579151,"about_ca_system_score_codex":0.00008832744,"about_ca_system_score_gemma":0.000072468356,"threshold_uncertainty_score":0.8913058},"labels":[],"label_agreement":null},{"id":"W4394794191","doi":"10.1002/adma.202403230","title":"A Rotating Cathode with Periodical Changes in Electrolyte Layer Thickness for High‐Rate Li‒O<sub>2</sub> Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; National Key Research and Development Program of China; National Outstanding Youth Science Fund Project of National Natural Science Foundation of China; National Natural Science Foundation of China","keywords":"Electrolyte; Cathode; Materials science; Electrochemistry; Gravimetric analysis; Mass transfer; Current density; Decoupling (probability); Electrode; Layer (electronics); Chemical engineering; Analytical Chemistry (journal); Nanotechnology; Chemistry; Chromatography; Physical chemistry; Organic chemistry","score_opus":0.008396629418702213,"score_gpt":0.22523006399430204,"score_spread":0.21683343457559984,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4394794191","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9812122,0.00046468235,0.014777878,0.00041109248,0.0008814006,0.0005993691,0.00018734409,0.0014480094,0.000018004068],"genre_scores_gemma":[0.987838,0.00034787535,0.009992584,0.00010044471,0.00018520733,0.0013297226,0.00005263312,0.00013983574,0.00001372536],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983834,0.00003994115,0.0003658075,0.0004424925,0.00013679518,0.0006315479],"domain_scores_gemma":[0.99943155,0.00016367197,0.000054274755,0.00026113086,0.00004846548,0.000040899624],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032394656,0.0003772911,0.000531734,0.00017619695,0.00011436344,0.00034161544,0.00017901836,0.00015848728,0.000033448643],"category_scores_gemma":[0.00008072054,0.0003125843,0.000025897996,0.0002137485,0.00010697424,0.00040736495,0.00006024588,0.00014101547,0.0000210458],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014007997,0.000009303048,0.000005731735,0.0007580486,0.000028851555,0.0000506067,0.00021410348,0.0021143975,0.98053706,0.0010814735,0.000037675065,0.015022643],"study_design_scores_gemma":[0.00042360267,0.00018617774,0.00012139791,0.00043903274,0.000021750619,0.000029245377,0.00007758696,0.00022738226,0.99316686,0.003353952,0.0015208541,0.0004321372],"about_ca_topic_score_codex":0.0000070346036,"about_ca_topic_score_gemma":0.00013812081,"teacher_disagreement_score":0.0145905055,"about_ca_system_score_codex":0.00008684717,"about_ca_system_score_gemma":0.000034492743,"threshold_uncertainty_score":0.99993265},"labels":[],"label_agreement":null},{"id":"W4394794208","doi":"10.1002/adma.202401619","title":"Breaking the pH Limitation of Nanozymes: Mechanisms, Methods, and Applications","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Nanomaterials in Catalysis","field":"Materials Science","cited_by":164,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"National Key Research and Development Program of China; Fundamental Research Funds for the Central Universities; Jiangsu Planned Projects for Postdoctoral Research Funds; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Nanotechnology","score_opus":0.04218398095982876,"score_gpt":0.41103377154847975,"score_spread":0.36884979058865097,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4394794208","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00003774803,0.95967376,0.03547473,0.000019304152,0.0013617546,0.0020604667,0.0010698212,0.00021253138,0.000089857545],"genre_scores_gemma":[0.0000604763,0.8869524,0.110033445,0.000025255093,0.0002539511,0.0021531105,0.00022239465,0.00014373429,0.00015521374],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99583924,0.0007247327,0.0016547126,0.0009646019,0.00039436718,0.00042233066],"domain_scores_gemma":[0.9961749,0.0009823781,0.0014534437,0.0011396524,0.00017625086,0.00007341716],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0024256543,0.0006635275,0.002327207,0.00024969762,0.00021528165,0.00024057439,0.0007761504,0.0003109619,0.00020103829],"category_scores_gemma":[0.0003681651,0.0004228769,0.00024143035,0.0005270766,0.0002788868,0.00033551408,0.000556509,0.00013560981,0.00029190586],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006443139,0.000015099727,2.004952e-9,0.013101288,0.000066431145,0.0000020111972,0.00006232143,0.000003440973,0.5740106,0.013875545,0.000036933012,0.39881983],"study_design_scores_gemma":[0.000076847085,0.000025457633,4.0550958e-8,0.0037485429,0.0016293869,0.000055875727,0.000053054482,3.8283852e-7,0.37581423,0.021534681,0.5966939,0.00036763333],"about_ca_topic_score_codex":0.000010517211,"about_ca_topic_score_gemma":0.0000022351667,"teacher_disagreement_score":0.5966569,"about_ca_system_score_codex":0.00014177574,"about_ca_system_score_gemma":0.000168849,"threshold_uncertainty_score":0.9998223},"labels":[],"label_agreement":null},{"id":"W4394819427","doi":"10.1002/adma.202312685","title":"Mn‐Based Mullites for Environmental and Energy Applications","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Catalytic Processes in Materials Science","field":"Materials Science","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut National de la Recherche Scientifique","funders":"Shenzhen Science and Technology Innovation Program; National Key Research and Development Program of China; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Catalysis; Mullite; Stacking; Octahedron; Ionic bonding; Ternary operation; Oxygen; Chemical engineering; Hydrothermal circulation; Nanotechnology; Inorganic chemistry; Ceramic; Crystallography; Ion; Crystal structure; Chemistry; Organic chemistry; Computer science","score_opus":0.006384515724106678,"score_gpt":0.25103110540495116,"score_spread":0.2446465896808445,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4394819427","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8035084,0.005495549,0.17529011,0.0008758638,0.0053384383,0.0013718095,0.005910966,0.0011585293,0.0010503324],"genre_scores_gemma":[0.976294,0.0000856523,0.020934327,0.00018281885,0.0002384122,0.001204602,0.00013096303,0.000039406175,0.000889867],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985019,0.000024282093,0.00034284752,0.0005972643,0.00021613002,0.00031755032],"domain_scores_gemma":[0.9992734,0.00023557982,0.00007749094,0.0003081573,0.0000225264,0.000082809835],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004995518,0.00018463905,0.00022399426,0.000068918154,0.0001474631,0.00036735318,0.00027082302,0.000058145117,0.0009806742],"category_scores_gemma":[0.00005670722,0.00016755075,0.00003238923,0.00007763912,0.00022308934,0.00042321434,0.00010926119,0.00001879474,0.00016684298],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020485051,0.000019276215,4.1661698e-7,0.00021933804,0.0000024635149,0.0000018937176,0.0000393093,0.000020380388,0.9815877,0.010828293,0.00013547135,0.0071249707],"study_design_scores_gemma":[0.00017496182,0.000041503863,0.0000048478864,0.00003874352,0.000016227421,0.000014758362,0.000031189473,0.00011150156,0.8755866,0.014438366,0.10935262,0.00018867855],"about_ca_topic_score_codex":0.0000047955023,"about_ca_topic_score_gemma":0.0000011155158,"teacher_disagreement_score":0.17278555,"about_ca_system_score_codex":0.000069462956,"about_ca_system_score_gemma":0.000060470742,"threshold_uncertainty_score":0.9999326},"labels":[],"label_agreement":null},{"id":"W4395068470","doi":"10.1002/adma.202400307","title":"Tumor‐Tailored Ionizable Lipid Nanoparticles Facilitate IL‐12 Circular RNA Delivery for Enhanced Lung Cancer Immunotherapy","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Circular RNAs in diseases","field":"Biochemistry, Genetics and Molecular Biology","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Princess Margaret Cancer Centre; University Health Network; University of Toronto","funders":"Canadian Institutes of Health Research; Connaught Fund; Leslie Dan Faculty of Pharmacy, University of Toronto; Canada Excellence Research Chairs, Government of Canada; J.P. Bickell Foundation; Natural Sciences and Engineering Research Council of Canada; Princess Margaret Cancer Foundation","keywords":"Materials science; Immunotherapy; Lung cancer; Cancer immunotherapy; Cancer; Nanoparticle; Lung tumor; RNA; Nanotechnology; Cancer research; Medicine; Oncology; Biochemistry; Biology; Internal medicine","score_opus":0.010522520792014592,"score_gpt":0.2718301858450828,"score_spread":0.2613076650530682,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4395068470","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.974431,0.01731546,0.004967785,0.00008664665,0.0015756335,0.00078838604,0.00061402924,0.00017053928,0.000050564857],"genre_scores_gemma":[0.99470544,0.0019298941,0.0010235833,0.0002906039,0.00043228548,0.0009185727,0.00019693929,0.00012519606,0.0003775035],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982095,0.00007070931,0.00039173217,0.0006553429,0.00018725255,0.00048545835],"domain_scores_gemma":[0.9991235,0.000031573567,0.000088395085,0.00050121185,0.0001596943,0.000095620424],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023013899,0.00029412867,0.0003044046,0.000053662043,0.00011316404,0.00014335431,0.00025409905,0.00009830457,0.00017080932],"category_scores_gemma":[0.00012393414,0.00029147492,0.00017996166,0.00009246041,0.00009169035,0.00003073043,0.00008378691,0.000042905976,0.000017024999],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041985547,0.000037214955,0.000017734828,0.0003624366,0.00021955614,0.000008728487,0.000077235716,0.0007943329,0.9928123,0.00006716698,0.0010323359,0.004151109],"study_design_scores_gemma":[0.00081883837,0.00011665293,0.00009706842,0.00013800003,0.000062024665,0.000005944653,0.00004549624,0.0000587813,0.9529478,0.0003391002,0.045001034,0.0003692548],"about_ca_topic_score_codex":0.000031368512,"about_ca_topic_score_gemma":0.000010585411,"teacher_disagreement_score":0.043968696,"about_ca_system_score_codex":0.00008765097,"about_ca_system_score_gemma":0.00017993184,"threshold_uncertainty_score":0.99995375},"labels":[],"label_agreement":null},{"id":"W4396720387","doi":"10.1002/adma.202402643","title":"KIr<sub>4</sub>O<sub>8</sub> Nanowires with Rich Hydroxyl Promote Oxygen Evolution Reaction in Proton Exchange Membrane Water Electrolyzer","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Fuel Cells and Related Materials","field":"Engineering","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Dalian National Laboratory for Clean Energy; National Key Research and Development Program of China; Central Universities in China; National Natural Science Foundation of China","keywords":"Materials science; Oxygen evolution; Nanowire; Electrolysis; Proton; Proton exchange membrane fuel cell; Oxygen; Membrane; Electrolysis of water; Chemical engineering; Inorganic chemistry; Fuel cells; Nanotechnology; Electrochemistry; Physical chemistry; Electrode; Organic chemistry; Chemistry","score_opus":0.0034677109367991497,"score_gpt":0.18421467020472335,"score_spread":0.1807469592679242,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396720387","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9914079,0.0024910283,0.00012105199,0.0000840511,0.0021085017,0.0021556143,0.000047388072,0.0010667872,0.0005177236],"genre_scores_gemma":[0.9933875,0.0044610724,0.00016688879,0.000018804385,0.00037525097,0.0011386733,0.00016940768,0.00023082022,0.00005155361],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972701,0.000114142145,0.00068484375,0.00065337506,0.00037491717,0.0009026436],"domain_scores_gemma":[0.9993149,0.000027351165,0.0000824097,0.000389356,0.00007714791,0.00010881376],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005852127,0.0005563474,0.0006189687,0.0003454868,0.00009570694,0.00019545348,0.00016583061,0.0003756601,0.000061803126],"category_scores_gemma":[0.000018216488,0.00041050542,0.00006572344,0.00035051597,0.000049270966,0.00081107736,0.000060805996,0.000254385,0.00038626566],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003020302,0.000049738075,0.000001294475,0.004461495,0.00009906258,0.000100258956,0.0003871492,0.0033605965,0.989803,0.000018806912,0.000072142815,0.0013444114],"study_design_scores_gemma":[0.0008355595,0.00021378658,0.000054389828,0.0007461792,0.000072246345,0.000070292546,0.000012234119,0.00043282926,0.99123496,0.00071571715,0.004997011,0.00061477517],"about_ca_topic_score_codex":0.00002827294,"about_ca_topic_score_gemma":0.000034573342,"teacher_disagreement_score":0.004924868,"about_ca_system_score_codex":0.0004810849,"about_ca_system_score_gemma":0.000043346903,"threshold_uncertainty_score":0.99983466},"labels":[],"label_agreement":null},{"id":"W4396955304","doi":"10.1002/adma.202313743","title":"Wearable Aptalyzer Integrates Microneedle and Electrochemical Sensing for In Vivo Monitoring of Glucose and Lactate in Live Animals","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Transdermal Drug Delivery","field":"Pharmacology, Toxicology and Pharmaceutics","cited_by":87,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Population Health Research Institute; University of Waterloo; McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Space Agency","keywords":"Aptamer; Analyte; Biosensor; Wearable computer; Materials science; Bioanalysis; Continuous monitoring; Continuous glucose monitoring; Biomedical engineering; Nanotechnology; Biocompatible material; Computer science; Chromatography; Embedded system; Chemistry; Diabetes mellitus; Type 1 diabetes; Medicine; Biology","score_opus":0.042072898635119496,"score_gpt":0.39330573515720885,"score_spread":0.35123283652208936,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396955304","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98942715,0.009174402,0.00027091795,0.00006690072,0.00046268434,0.0004471135,0.00007333784,0.00003237598,0.00004513737],"genre_scores_gemma":[0.9895329,0.0046617645,0.0055773547,0.000043909156,0.00005794836,0.000038670125,0.0000039082315,0.000027223867,0.000056344612],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99884,0.00009110624,0.00037284533,0.0003025428,0.00005693694,0.00033656968],"domain_scores_gemma":[0.99934494,0.00044521637,0.000055746772,0.00006259468,0.000041200306,0.00005028077],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00042824206,0.0001737519,0.00033124455,0.00012468662,0.000034396417,0.000022063838,0.00005669272,0.00013786864,0.000061178325],"category_scores_gemma":[0.00007453002,0.0001740283,0.00002101746,0.00010495696,0.0001153788,0.00019070225,0.00004171775,0.00019895313,0.0000025171241],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007493265,0.00003706725,0.0005449301,0.00044122906,0.000037003974,0.000023524726,0.0009026256,0.00006899009,0.991873,0.00009904667,0.000006435366,0.005216824],"study_design_scores_gemma":[0.0010444557,0.000083256244,0.0001625467,0.000327692,0.000035164507,0.000014167132,0.0004239331,0.00037230708,0.9945396,0.0017864396,0.0010496958,0.00016072828],"about_ca_topic_score_codex":0.000022673994,"about_ca_topic_score_gemma":0.000011496693,"teacher_disagreement_score":0.0053064367,"about_ca_system_score_codex":0.000070079965,"about_ca_system_score_gemma":0.000025960995,"threshold_uncertainty_score":0.70966685},"labels":[],"label_agreement":null},{"id":"W4396994621","doi":"10.1002/adma.202406359","title":"Dipole Moment Influences the Reversibility and Corrosion of Lithium Metal Anodes","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Alberta Innovates; Canada First Research Excellence Fund; University of Alberta","keywords":"Materials science; Corrosion; Lithium (medication); Lithium metal; Dipole; Electrolyte; Faraday efficiency; Metal; Salt (chemistry); Anode; Chemical engineering; Nanotechnology; Metallurgy; Organic chemistry; Chemistry; Physical chemistry; Electrode","score_opus":0.007697122697988198,"score_gpt":0.22758194886807798,"score_spread":0.21988482617008978,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396994621","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943996,0.0027427166,0.0010370093,0.00008788812,0.0009350542,0.00017812535,0.00009434598,0.00038669488,0.00013856919],"genre_scores_gemma":[0.9977373,0.00088114373,0.0012346694,0.000012722327,0.000027582084,0.000032395383,0.0000040887726,0.000015538635,0.000054597105],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99932784,0.000019198607,0.00024473056,0.00016153924,0.00010191637,0.00014480048],"domain_scores_gemma":[0.9996573,0.00006277359,0.00003074357,0.00021105263,0.000022771605,0.000015394216],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020591177,0.00012773376,0.00021161778,0.00003654539,0.000041269304,0.00005108174,0.00011112593,0.00004916287,0.000065672015],"category_scores_gemma":[0.000032872278,0.0000810858,0.000020791485,0.00008316224,0.00013672511,0.0002607895,0.00008618918,0.000043150383,0.000010216895],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001109186,0.000003973304,0.000019971889,0.0003150991,0.000011572971,0.000001921285,0.000066303146,0.0004503481,0.9950039,0.001224287,0.00009330836,0.002798221],"study_design_scores_gemma":[0.000066245484,0.000037499078,0.0004783376,0.00010865491,0.000017340904,0.000004373751,0.00009252133,0.000040257553,0.98585707,0.005965914,0.007233414,0.00009838366],"about_ca_topic_score_codex":0.000006882144,"about_ca_topic_score_gemma":0.0000012328773,"teacher_disagreement_score":0.009146844,"about_ca_system_score_codex":0.000024167466,"about_ca_system_score_gemma":0.000005083909,"threshold_uncertainty_score":0.3306583},"labels":[],"label_agreement":null},{"id":"W4397040204","doi":"10.1002/adma.202401048","title":"Revealing the Nature of Binary‐Phase on Structural Stability of Sodium Layered Oxide Cathodes","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; Science and Technology Support Plan for Youth Innovation of Colleges and Universities of Shandong Province of China; Brookhaven National Laboratory; Argonne National Laboratory; Office of Energy Efficiency; Vehicle Technologies Office; University of Chicago; National Natural Science Foundation of China; Olympians Academy; Office of Science; Canada Excellence Research Chairs, Government of Canada","keywords":"Cathode; Electrochemistry; Materials science; Oxide; Phase (matter); Structural stability; Density functional theory; Chemical engineering; Redox; Sodium-ion battery; Nanotechnology; Electrode; Physical chemistry; Chemistry; Computational chemistry; Metallurgy; Organic chemistry; Faraday efficiency","score_opus":0.01480134886917936,"score_gpt":0.30073519297544193,"score_spread":0.28593384410626255,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4397040204","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99485517,0.00070512027,0.00030476626,0.000055975568,0.002635721,0.00041191248,0.00073144125,0.00019959692,0.000100285884],"genre_scores_gemma":[0.9956573,0.00006918416,0.003981442,0.000037192876,0.00010462039,0.000041964715,0.000035361158,0.000056456334,0.000016475455],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984918,0.00009653737,0.0006473209,0.0002544632,0.0002519489,0.0002579177],"domain_scores_gemma":[0.9990328,0.0002266968,0.000114149894,0.0005257505,0.00007127543,0.00002932358],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004946616,0.00024117512,0.0004421338,0.00006713699,0.000041800024,0.000036120862,0.00026494556,0.00011297484,0.00030797697],"category_scores_gemma":[0.00014859882,0.00017170736,0.000044968136,0.0001363431,0.000096732365,0.00023451458,0.00006824088,0.00013558676,0.000008391789],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015441077,0.0000150841815,0.0000044103926,0.0009331993,0.000039007547,0.0000051137367,0.00020515732,0.0047468836,0.99217844,0.0011147619,0.00008582633,0.0005176845],"study_design_scores_gemma":[0.00035187163,0.00008546885,0.0001287447,0.0002809685,0.000022855544,0.0000035088974,0.00007426137,0.00009302975,0.99620503,0.0021223102,0.00046976467,0.00016219915],"about_ca_topic_score_codex":0.0000073519464,"about_ca_topic_score_gemma":0.0000013344329,"teacher_disagreement_score":0.004653854,"about_ca_system_score_codex":0.00008640391,"about_ca_system_score_gemma":0.000018871455,"threshold_uncertainty_score":0.7002023},"labels":[],"label_agreement":null},{"id":"W4399010922","doi":"10.1002/adma.202401534","title":"Anisotropic 2D van der Waals Magnets Hosting 1D Spin Chains","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Ministerstvo Školství, Mládeže a Tělovýchovy; Office of Naval Research; Division of Electrical, Communications and Cyber Systems; U.S. Department of Energy; European Regional Development Fund; Army Research Office; Natural Sciences and Engineering Research Council of Canada; Multidisciplinary University Research Initiative; Division of Materials Research; Army Research Laboratory; MathWorks; Canada Research Chairs; Gordon and Betty Moore Foundation; National Science Foundation","keywords":"Spintronics; Magnetism; van der Waals force; Condensed matter physics; Spin (aerodynamics); Materials science; Antiferromagnetism; Spin engineering; Magnonics; Anisotropy; Magnet; Spin polarization; Ferromagnetism; Physics; Electron; Spin Hall effect; Quantum mechanics","score_opus":0.012693385355944688,"score_gpt":0.28779617875139263,"score_spread":0.27510279339544796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399010922","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98880076,0.0008980348,0.002562126,0.0006301651,0.0030448628,0.00062579993,0.00037960283,0.00084826356,0.0022103854],"genre_scores_gemma":[0.9858197,0.00018927033,0.010911158,0.0003127887,0.0007191587,0.0003289754,0.00005764987,0.00008645852,0.0015748608],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975381,0.0001015645,0.0006577184,0.0007300235,0.0003305835,0.0006420215],"domain_scores_gemma":[0.9989516,0.00009609645,0.00014958438,0.0005615171,0.0001008508,0.00014034157],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00057799584,0.00033887214,0.0004585219,0.00009544279,0.0002514388,0.0006533818,0.00038011302,0.00011840572,0.0074853622],"category_scores_gemma":[0.00012374471,0.00029465923,0.00006805322,0.0002073197,0.00010294574,0.00053743727,0.00019492336,0.000067940324,0.003557573],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000171755,0.00003020923,0.0000027394392,0.00020434982,0.000008060664,0.000025865558,0.00014044634,0.000043028056,0.9759242,0.020391464,0.00061717076,0.0025952833],"study_design_scores_gemma":[0.00023622093,0.00007197268,0.00023807332,0.00018679196,0.000036771395,0.00002789093,0.000038834918,0.000020029178,0.93971366,0.0059389477,0.053132806,0.00035799996],"about_ca_topic_score_codex":0.000058619193,"about_ca_topic_score_gemma":0.0000109111115,"teacher_disagreement_score":0.052515637,"about_ca_system_score_codex":0.00009772167,"about_ca_system_score_gemma":0.00008471413,"threshold_uncertainty_score":0.9999505},"labels":[],"label_agreement":null},{"id":"W4399019103","doi":"10.1002/adma.202402369","title":"In Silico Chemical Experiments in the Age of AI: From Quantum Chemistry to Machine Learning and Back","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Vector Institute; University of Toronto","funders":"Natural Resources Canada; Natural Sciences and Engineering Research Council of Canada; Office of Science; Canadian Institute for Advanced Research; Vector Institute; King Abdullah University of Science and Technology; University of Minnesota; U.S. Department of Energy","keywords":"Chemical space; In silico; Computer science; Scalability; Transferability; Artificial intelligence; Computational model; Machine learning; Set (abstract data type); Multiscale modeling; Quantitative structure–activity relationship; Biochemical engineering; Chemistry; Computational chemistry; Drug discovery; Database; Engineering","score_opus":0.026255236236149296,"score_gpt":0.3667177230991557,"score_spread":0.3404624868630064,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399019103","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.22045234,0.77622324,0.00002430832,0.00011789593,0.0012394899,0.0012473273,0.00043403875,0.00007051211,0.00019083492],"genre_scores_gemma":[0.023859438,0.9670273,0.006134173,0.00038129304,0.00050670275,0.0008573639,0.00044396715,0.00024644568,0.0005433235],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9957527,0.00066735357,0.0014066611,0.001076422,0.0005423413,0.00055454654],"domain_scores_gemma":[0.998533,0.00036373507,0.0004048416,0.00058276026,0.000032196072,0.00008345209],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0018320839,0.00061420246,0.00207298,0.00014985229,0.00004431868,0.0002951074,0.0010608796,0.0002770353,0.0023457273],"category_scores_gemma":[0.0007200661,0.00042282633,0.00009931389,0.00043932153,0.00019137525,0.00021613861,0.0007096498,0.00048244154,0.00052077125],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000035408713,0.00004397179,0.0000042322245,0.005566405,0.0000060127963,0.00007570444,0.00050710404,0.000021794584,0.991674,0.000045069813,0.000057088033,0.0019631814],"study_design_scores_gemma":[0.00044251783,0.000076645825,0.000006870939,0.012648815,0.00011598747,0.00004623897,0.000084264975,0.000021157977,0.49396494,0.00074811425,0.49101698,0.0008274823],"about_ca_topic_score_codex":0.0005015302,"about_ca_topic_score_gemma":0.000009492141,"teacher_disagreement_score":0.4977091,"about_ca_system_score_codex":0.00014466654,"about_ca_system_score_gemma":0.00010607269,"threshold_uncertainty_score":0.9998224},"labels":[],"label_agreement":null},{"id":"W4399162747","doi":"10.1002/adma.202406094","title":"Thiosalicylic‐Acid‐Mediated Coordination Structure of Nickel Center via Thermodynamic Modulation for Aqueous Ni–Zn Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Yangzhou University; Government of Jiangsu Province; Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Nanomaterials; Nickel; Density functional theory; Electrochemistry; Ligand (biochemistry); Molecule; X-ray photoelectron spectroscopy; Nanotechnology; Physical chemistry; Chemical engineering; Computational chemistry; Electrode; Chemistry; Metallurgy; Organic chemistry","score_opus":0.007674825105747939,"score_gpt":0.2602106831969195,"score_spread":0.2525358580911715,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399162747","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8953665,0.00030188693,0.09998248,0.00016889734,0.0012122092,0.0007304834,0.0011419668,0.0010362796,0.00005930198],"genre_scores_gemma":[0.99363106,0.00008850532,0.005417041,0.000020916861,0.00006718523,0.00012331925,0.00049368374,0.00009927005,0.000058986698],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99869657,0.000026601052,0.00040623537,0.00029343204,0.00022024509,0.00035691404],"domain_scores_gemma":[0.99934745,0.000107967855,0.00006313757,0.0003273327,0.00012347993,0.00003060667],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000966534,0.00024252839,0.00031863208,0.00022068799,0.000044307697,0.0000570979,0.00022474756,0.00018198487,0.00012511823],"category_scores_gemma":[0.00012982986,0.0002242543,0.000047142687,0.00022817495,0.000078796285,0.00046888168,0.000065819,0.00011438569,0.000018863215],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004835652,0.000008321494,0.000012821228,0.0005807547,0.00004786776,0.0000028972584,0.00006737341,0.004407905,0.96805954,0.00040326972,0.0001513025,0.026209585],"study_design_scores_gemma":[0.00040394708,0.0000761192,0.0002695473,0.00011254454,0.000010789218,0.000010215285,0.000033794127,0.028223459,0.9547646,0.01460885,0.0012376934,0.00024843225],"about_ca_topic_score_codex":0.000004356355,"about_ca_topic_score_gemma":0.000009005295,"teacher_disagreement_score":0.09826459,"about_ca_system_score_codex":0.0001893352,"about_ca_system_score_gemma":0.000015346472,"threshold_uncertainty_score":0.9144825},"labels":[],"label_agreement":null},{"id":"W4399166705","doi":"10.1002/adma.202401745","title":"Mucus‐Inspired Self‐Healing Hydrogels: A Protective Barrier for Cells against Viral Infection","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Lipid Membrane Structure and Behavior","field":"Biochemistry, Genetics and Molecular Biology","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Environmental Health Sciences; Canadian Institutes of Health Research; National Institutes of Health; Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology; Robert Koch Institut; Freie Universität Berlin; Deutsche Forschungsgemeinschaft; Alexander von Humboldt-Stiftung","keywords":"Self-healing hydrogels; Materials science; Biophysics; Mucin; Mucus; Nanotechnology; Chemistry; Polymer chemistry; Biochemistry; Biology","score_opus":0.00657216385251834,"score_gpt":0.25924522445625536,"score_spread":0.252673060603737,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399166705","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99436116,0.0001171794,0.0020163006,0.00002454923,0.0019853637,0.0010293365,0.00022234494,0.00012748798,0.000116304334],"genre_scores_gemma":[0.99544716,0.00009153266,0.0024222536,0.00014783909,0.0009430508,0.00049526145,0.00018230286,0.00005414181,0.00021644741],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99891305,0.00004263018,0.00024037654,0.00043565474,0.00009606306,0.00027223697],"domain_scores_gemma":[0.9995736,0.0000103461425,0.00005977912,0.00021100334,0.00008459018,0.000060689446],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018337555,0.00020050826,0.00019248654,0.000047798203,0.00009738168,0.000073589414,0.00007579481,0.00016842138,0.00002242227],"category_scores_gemma":[0.000045090055,0.00017580703,0.00010269276,0.000058606896,0.000027394797,0.000017654442,0.00004430176,0.000052669708,0.000012737272],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001176489,0.000018564317,0.0000037378102,0.00020062318,0.00004587051,0.0000029982434,0.00006605697,0.00007152426,0.99469006,0.00004100242,0.0000768353,0.004665071],"study_design_scores_gemma":[0.00044845213,0.00024169673,0.000017074515,0.000048139424,0.000047068974,0.000006676061,0.000011469645,0.000012118977,0.932949,0.00015743333,0.06584412,0.00021677358],"about_ca_topic_score_codex":0.000011993271,"about_ca_topic_score_gemma":0.000008368451,"teacher_disagreement_score":0.06576728,"about_ca_system_score_codex":0.000038840008,"about_ca_system_score_gemma":0.000082922415,"threshold_uncertainty_score":0.71692026},"labels":[],"label_agreement":null},{"id":"W4399353923","doi":"10.1002/adma.202403632","title":"Accelerated Discovery of (TiZrHf)<sub><i>x</i></sub>(NbTa)<sub>1−</sub><sub><i>x</i></sub> High‐Entropy Alloys With Superior Thermal Stability and a New Crystallization Mechanism","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"High Entropy Alloys Studies","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"Materials science; Crystallization; Nanocrystalline material; Annealing (glass); Thermal stability; Alloy; High entropy alloys; Amorphous solid; Crystallography; Grain growth; Grain size; Nanocomposite; Chemical engineering; Chemical physics; Thermodynamics; Nanotechnology; Metallurgy","score_opus":0.010313667755519845,"score_gpt":0.20486123233638417,"score_spread":0.19454756458086434,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399353923","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97666043,0.0011787398,0.017294345,0.00012992222,0.0015611938,0.0013786121,0.0006201333,0.001118048,0.00005857954],"genre_scores_gemma":[0.99419516,0.0032103984,0.0012930441,0.00007391794,0.00036333775,0.00027016425,0.00023489518,0.00034995013,0.000009156787],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9955498,0.00020908186,0.0012293792,0.0011275356,0.0007745573,0.0011096684],"domain_scores_gemma":[0.9982006,0.00023253847,0.00023948668,0.00076243567,0.0002761333,0.00028882394],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00045691934,0.0010247859,0.0013402746,0.0002565263,0.00021988788,0.00048656942,0.00035662093,0.00031197304,0.00006355871],"category_scores_gemma":[0.00013943222,0.00093092554,0.00015450832,0.0006300406,0.00025072743,0.0018840778,0.00028968725,0.0003079292,0.000047280377],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005297345,0.00009084173,0.000037034795,0.0011800588,0.0004868847,0.000076935976,0.000788484,0.0040243655,0.9889623,0.002157922,0.00014685513,0.001518573],"study_design_scores_gemma":[0.001739735,0.0003579783,0.0008659682,0.0005460523,0.00028142982,0.00002960323,0.00016933226,0.00032273435,0.99308366,0.0014334363,0.00017841406,0.0009916549],"about_ca_topic_score_codex":0.00004686461,"about_ca_topic_score_gemma":0.00016861546,"teacher_disagreement_score":0.01753471,"about_ca_system_score_codex":0.0003776284,"about_ca_system_score_gemma":0.00019546963,"threshold_uncertainty_score":0.9993141},"labels":[],"label_agreement":null},{"id":"W4399429474","doi":"10.1002/adma.202402009","title":"Multifunctional Dopamine‐Based Hydrogel Microneedle Electrode for Continuous Ketone Sensing","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Adipose Tissue and Metabolism","field":"Medicine","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Waterloo","funders":"Breakthrough T1D Canada; University of Waterloo","keywords":"Ketone; Catechol; Dopamine; Materials science; Combinatorial chemistry; Chemistry; Organic chemistry; Medicine","score_opus":0.0139460453188403,"score_gpt":0.28940900004178416,"score_spread":0.27546295472294385,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399429474","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97308606,0.0037265925,0.018602757,0.0006250204,0.0020822177,0.0009757628,0.0001563335,0.0003672054,0.00037804255],"genre_scores_gemma":[0.95839345,0.00005341915,0.034424543,0.00061265915,0.0010570888,0.000060707698,0.00030603318,0.000081555336,0.0050105476],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998771,0.000017159291,0.00031773618,0.00035738022,0.0001727408,0.00036397847],"domain_scores_gemma":[0.99937737,0.00012226198,0.00005675582,0.00020765638,0.00014079899,0.000095131996],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024602356,0.00019954641,0.00044436308,0.00010824681,0.000070601185,0.000041013034,0.000039160703,0.00008692211,0.00020712406],"category_scores_gemma":[0.00015107771,0.00017493824,0.000096034,0.0001046618,0.00004500843,0.000106908985,0.000014220489,0.000072076866,0.00011664297],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00049211533,0.0000409524,0.000002529421,0.00024749545,0.000074164316,0.000050611132,0.000036107427,0.000016174527,0.98128015,0.0005137051,0.0010906624,0.016155317],"study_design_scores_gemma":[0.0016299646,0.00017645747,0.0000491437,0.00015923931,0.00018990468,0.00011222972,0.000016499618,0.00020892237,0.8038546,0.0004199769,0.19302769,0.0001553955],"about_ca_topic_score_codex":0.000017077367,"about_ca_topic_score_gemma":0.0000024489736,"teacher_disagreement_score":0.19193703,"about_ca_system_score_codex":0.00006717787,"about_ca_system_score_gemma":0.00012984901,"threshold_uncertainty_score":0.7133774},"labels":[],"label_agreement":null},{"id":"W4399598826","doi":"10.1002/adma.202310659","title":"High‐Energy Earth‐Abundant Cathodes with Enhanced Cationic/Anionic Redox for Sustainable and Long‐Lasting Na‐Ion Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Argonne National Laboratory; Basic Energy Sciences; Office of Science; Natural Science Foundation of Beijing Municipality; National Natural Science Foundation of China; University of Chicago; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Materials science; Redox; Cationic polymerization; Cathode; Ion; Sustainable energy; Energy storage; Nanotechnology; Inorganic chemistry; Engineering physics; Chemical engineering; Renewable energy; Metallurgy; Organic chemistry; Power (physics); Electrical engineering; Physical chemistry; Polymer chemistry; Chemistry","score_opus":0.005851062917892249,"score_gpt":0.23066514390173828,"score_spread":0.22481408098384603,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399598826","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.753552,0.0007718336,0.24252942,0.00007733007,0.0015529877,0.0005782005,0.00009917432,0.0007047128,0.0001343123],"genre_scores_gemma":[0.97792137,0.00029098982,0.01919703,0.000059365197,0.0002849507,0.00070283975,0.00013175118,0.00015294095,0.0012587716],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99821365,0.000044151155,0.00048185018,0.00047528575,0.00018289305,0.00060215604],"domain_scores_gemma":[0.99920475,0.0001729179,0.0000860234,0.00031761607,0.0001504273,0.00006827941],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00030237832,0.00036298044,0.00043968382,0.00012583536,0.00020914983,0.00044372122,0.00013791275,0.000085155974,0.00015656656],"category_scores_gemma":[0.00007941153,0.000328779,0.000021279156,0.0001504862,0.00009179716,0.001036347,0.00008247963,0.0000534528,0.000012506872],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001326818,0.000011047149,0.0000020109862,0.0015205758,0.000057947822,0.00002430464,0.0002068842,0.0063934964,0.9719288,0.01679036,0.00011418134,0.0028177237],"study_design_scores_gemma":[0.0005244411,0.00016840806,0.000058023277,0.0004158169,0.00004344358,0.000030558025,0.00015359453,0.000074163276,0.9852441,0.0074253203,0.0054274183,0.0004347445],"about_ca_topic_score_codex":0.000026177117,"about_ca_topic_score_gemma":0.000022348817,"teacher_disagreement_score":0.22436933,"about_ca_system_score_codex":0.00015953166,"about_ca_system_score_gemma":0.000047149624,"threshold_uncertainty_score":0.99991643},"labels":[],"label_agreement":null},{"id":"W4399790550","doi":"10.1002/adma.202406081","title":"Fabrication of Isotope‐Enriched Nanostructures Using Ultrafast Laser Pulses under Ambient Conditions for Biomolecular Sensing","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Laser-induced spectroscopy and plasma","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Metropolitan University; St. Michael's Hospital","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Isotope; Nanotechnology; Nanostructure; Nanoscopic scale; Stable isotope ratio; Ultrashort pulse; Biomolecule; Laser; Physics","score_opus":0.012578425640177726,"score_gpt":0.2744063231857583,"score_spread":0.26182789754558056,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399790550","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93501395,0.00009357175,0.0624037,0.000025476882,0.001468719,0.00032810576,0.0004047334,0.0002000496,0.00006170368],"genre_scores_gemma":[0.9933808,0.000030726565,0.006222956,0.00003089672,0.000099477955,0.00001560852,0.00015167346,0.000046307086,0.000021577187],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99921167,0.000021796293,0.00027145524,0.00018369354,0.000103815,0.00020755324],"domain_scores_gemma":[0.99961096,0.00007869511,0.00004100865,0.00015715069,0.00007619925,0.000035987436],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008143106,0.00015388898,0.00020611788,0.00009887853,0.00006352255,0.00006515711,0.000057712474,0.00007594876,0.000073691044],"category_scores_gemma":[0.000042581796,0.00014806441,0.00005200779,0.00016276052,0.00002924438,0.00018329185,0.00001020535,0.000039526087,0.000008106505],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013461497,0.0000062568442,6.565561e-7,0.00024030352,0.000050549017,0.0000031079887,0.000059858907,0.028408851,0.970051,0.0008749186,0.000051625062,0.0002394475],"study_design_scores_gemma":[0.00018791122,0.000030176068,0.0000688903,0.00010278264,0.000053456875,0.000013101949,0.000044653978,0.003034359,0.99184436,0.0038567693,0.00059782655,0.00016574448],"about_ca_topic_score_codex":0.000012046469,"about_ca_topic_score_gemma":0.000005469126,"teacher_disagreement_score":0.058366835,"about_ca_system_score_codex":0.0000771117,"about_ca_system_score_gemma":0.00002721371,"threshold_uncertainty_score":0.60378915},"labels":[],"label_agreement":null},{"id":"W4399926879","doi":"10.1002/adma.202402912","title":"Heavy‐Metal‐Free Colloidal Quantum Dots: Progress and Opportunities in Solar Technologies","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University; McGill University; Institut National de la Recherche Scientifique","funders":"Key Technologies Research and Development Program; Natural Sciences and Engineering Research Council of Canada; Higher Education Discipline Innovation Project; Canada Foundation for Innovation","keywords":"Quantum dot; Materials science; Photovoltaic system; Nanotechnology; Solar energy; Solar cell; Engineering physics; Optoelectronics","score_opus":0.0823984019782903,"score_gpt":0.32400276635160025,"score_spread":0.24160436437330995,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399926879","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0049110716,0.9898406,0.0000020029347,0.00025388846,0.0018582386,0.0013029929,0.0010004641,0.0007128495,0.000117873285],"genre_scores_gemma":[0.0011781477,0.996195,0.00068013585,0.000023383298,0.00010692503,0.0012430704,0.000039401824,0.00014680227,0.00038710047],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9960453,0.00037224023,0.0013985841,0.0009994827,0.00043464068,0.0007497652],"domain_scores_gemma":[0.9982059,0.00016819038,0.000497379,0.0009729268,0.00007895525,0.000076620534],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0015040307,0.00087047985,0.0029678198,0.00049028697,0.00014969007,0.0006911169,0.000969502,0.0005295043,0.00022630618],"category_scores_gemma":[0.00038543227,0.0005828753,0.00017518959,0.00023367279,0.0007237473,0.00053881865,0.000989354,0.00026544798,0.00022650139],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009985555,0.00009639258,3.0288868e-7,0.055816524,0.00008742718,0.00031853,0.00016776078,2.9795763e-7,0.023581404,0.010405634,0.0008637548,0.9085621],"study_design_scores_gemma":[0.00017088451,0.00016067894,2.1645957e-7,0.019193718,0.00037055925,0.00011125267,0.00035065608,7.055644e-7,0.048136197,0.005332318,0.92536515,0.0008076901],"about_ca_topic_score_codex":0.000031187436,"about_ca_topic_score_gemma":0.000014944133,"teacher_disagreement_score":0.92450136,"about_ca_system_score_codex":0.00014871446,"about_ca_system_score_gemma":0.0003062768,"threshold_uncertainty_score":0.9996623},"labels":[],"label_agreement":null},{"id":"W4400005137","doi":"10.1002/adma.202405930","title":"High‐Lactate‐Metabolizing Photosynthetic Bacteria Reprogram Tumor Immune Microenvironment","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cancer Research and Treatments","field":"Biochemistry, Genetics and Molecular Biology","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Hebei University; Science Fund for Creative Research Groups; Natural Science Foundation of Hebei Province; National Natural Science Foundation of China","keywords":"Tumor microenvironment; Immunotherapy; Immune system; Reprogramming; Biology; Cancer research; Bacteria; Tumor cells; Cell; Immunology; Biochemistry","score_opus":0.005501661381210553,"score_gpt":0.26179065523223427,"score_spread":0.2562889938510237,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400005137","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99329185,0.005044931,0.000063561194,0.000079271646,0.0007452594,0.00040289713,0.00021424425,0.000053379397,0.00010457678],"genre_scores_gemma":[0.9947358,0.0016735051,0.0021087448,0.00005724297,0.00020226993,0.00025647946,0.00033495462,0.000055980967,0.00057506247],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99861664,0.000056142722,0.00026011307,0.0005191068,0.00015422815,0.000393761],"domain_scores_gemma":[0.9993917,0.0000079329075,0.000050627077,0.0004372259,0.000021593243,0.00009092147],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017300587,0.00020628182,0.00022339432,0.000041489155,0.00006667759,0.00013797553,0.00014370908,0.000049854476,0.00048551493],"category_scores_gemma":[0.000033013126,0.00018013081,0.0000820902,0.000058266625,0.00006734472,0.000011405798,0.00014316956,0.00004653566,0.0001948046],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002316015,0.00005695113,0.000008761399,0.000066418055,0.000104414576,0.000058753434,0.000013725357,0.0000059680974,0.9903556,0.000039718503,0.00012148177,0.008936582],"study_design_scores_gemma":[0.00044309077,0.00019641317,0.00038052627,0.000059683665,0.000024126317,0.000037747595,0.0000123808295,5.70606e-7,0.8864879,0.00013822253,0.112056494,0.000162852],"about_ca_topic_score_codex":0.00012302674,"about_ca_topic_score_gemma":0.000012862223,"teacher_disagreement_score":0.11193501,"about_ca_system_score_codex":0.0000578753,"about_ca_system_score_gemma":0.000050369355,"threshold_uncertainty_score":0.73455215},"labels":[],"label_agreement":null},{"id":"W4400044155","doi":"10.1002/adma.202406837","title":"Electro‐Chemo‐Mechanically Stable and Sodiophilic Interface for Na Metal Anode in Liquid‐based and Solid‐State Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation","keywords":"Materials science; Anode; Electrolyte; Electrochemistry; Nanotechnology; Polymer; Metal; Fabrication; Energy storage; Chemical engineering; Electrode; Composite material; Metallurgy","score_opus":0.007131539008935948,"score_gpt":0.24500658678585704,"score_spread":0.2378750477769211,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400044155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9665994,0.0019400808,0.029185785,0.00018402988,0.000600078,0.0004548154,0.00024150083,0.00077862456,0.000015706606],"genre_scores_gemma":[0.98948705,0.00082536077,0.0091952635,0.000047242895,0.00003501738,0.0002715251,0.000019796107,0.00008021727,0.00003854516],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986936,0.000019867242,0.00038426535,0.0003765816,0.000080949634,0.0004447316],"domain_scores_gemma":[0.99960434,0.00010109771,0.00003466525,0.00019036888,0.000027539852,0.00004200379],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023088594,0.00028951644,0.00047931046,0.0001320967,0.000044617438,0.00017233641,0.00011245176,0.000101199665,0.000035807592],"category_scores_gemma":[0.000058391135,0.0002703809,0.000025563231,0.00010271839,0.00007130818,0.00044137426,0.00008806567,0.00008376098,0.0000051818106],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017789012,0.000007753559,0.0000012427199,0.00071760506,0.000026702914,0.0000082390725,0.0000483796,0.0004888186,0.99430794,0.0005561796,0.000033937205,0.0036253394],"study_design_scores_gemma":[0.0003719777,0.00024961433,0.000013191477,0.00018711698,0.000016122565,0.0000064426795,0.00003225381,0.0007112348,0.98694795,0.008753167,0.0024087182,0.00030217887],"about_ca_topic_score_codex":0.000004027084,"about_ca_topic_score_gemma":0.0000057079274,"teacher_disagreement_score":0.022887653,"about_ca_system_score_codex":0.00006242966,"about_ca_system_score_gemma":0.000016068236,"threshold_uncertainty_score":0.99997485},"labels":[],"label_agreement":null},{"id":"W4400318474","doi":"10.1002/adma.202470208","title":"Multiphase Under‐Liquid Biofabrication With Living Soft Matter: A Route to Customize Functional Architectures With Microbial Nanocellulose (Adv. Mater. 27/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Biofabrication; Nanocellulose; Materials science; Soft matter; Nanotechnology; Biomedical engineering; Cellulose; Chemical engineering; Tissue engineering; Colloid; Engineering","score_opus":0.007983906361004161,"score_gpt":0.23928888902811926,"score_spread":0.2313049826671151,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400318474","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8924503,0.00015319735,0.103651695,0.00049273827,0.0014281833,0.0005980618,0.00014429649,0.0007456609,0.00033589534],"genre_scores_gemma":[0.9797717,0.00001978929,0.017851347,0.00021631923,0.00031938392,0.00018321302,0.000052115294,0.00014935421,0.0014368324],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99789894,0.00006785519,0.00037983002,0.0005540267,0.00049366505,0.0006057023],"domain_scores_gemma":[0.998971,0.0002886018,0.00004126895,0.0003832469,0.00009390722,0.0002219901],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00039394273,0.0003506835,0.00032806248,0.0003146232,0.00009184186,0.00029802218,0.00024890373,0.00010690359,0.001481383],"category_scores_gemma":[0.00009584711,0.00026789936,0.000040382598,0.00042982283,0.00011171713,0.00016804764,0.00013049017,0.000213063,0.00093317963],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00066070555,0.000031419357,0.000026093368,0.0005516337,0.00009393521,0.00003999993,0.0001912961,0.026469557,0.9683904,0.00004843844,0.0013241741,0.0021723276],"study_design_scores_gemma":[0.00074706355,0.00031058482,0.0008053831,0.0012964844,0.000044437315,0.00013099688,0.000049097,0.00066322275,0.9829147,0.00010168218,0.012351162,0.00058522524],"about_ca_topic_score_codex":0.00004103145,"about_ca_topic_score_gemma":0.00002202727,"teacher_disagreement_score":0.08732137,"about_ca_system_score_codex":0.00025552293,"about_ca_system_score_gemma":0.00009365528,"threshold_uncertainty_score":0.9999773},"labels":[],"label_agreement":null},{"id":"W4400422591","doi":"10.1002/adma.202407534","title":"Reverse Hydrogen Spillover on Metal Oxides for Water‐Promoted Catalytic Oxidation Reactions","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Catalytic Processes in Materials Science","field":"Materials Science","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Guangxi Province; National Natural Science Foundation of China; Division of Graduate Education; Natural Science Foundation of Guangxi Zhuang Autonomous Region","keywords":"Catalysis; Hydrogen spillover; Metal; Adsorption; Oxide; Materials science; Hydrogen; Inorganic chemistry; Photochemistry; Chemical engineering; Chemistry; Organic chemistry","score_opus":0.016086767993489095,"score_gpt":0.2859906066301651,"score_spread":0.26990383863667605,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400422591","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9887827,0.000092431306,0.0030760383,0.00045232518,0.005020424,0.000999579,0.0005021878,0.000650497,0.00042383728],"genre_scores_gemma":[0.99197215,0.000037438713,0.004989744,0.00018202566,0.00037852043,0.00038440397,0.00038807988,0.00008082908,0.0015868123],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969435,0.000068076886,0.00074538955,0.0009954469,0.0005488568,0.0006987509],"domain_scores_gemma":[0.9986126,0.0002173913,0.00014944535,0.00069606176,0.0001937096,0.00013080495],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0017421303,0.00037608374,0.0004673584,0.00020558617,0.00027025782,0.00051527814,0.0005263786,0.00012743428,0.0013445767],"category_scores_gemma":[0.0007414216,0.00028507874,0.00010702069,0.00024637024,0.00020122637,0.0014336236,0.00016476322,0.000070812544,0.002917941],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014724402,0.000049158203,1.4061058e-7,0.0004422871,0.00001675479,0.00001664332,0.00015595958,0.0002963683,0.99560803,0.00265152,0.0002797317,0.0003361351],"study_design_scores_gemma":[0.00033121702,0.00016207712,0.000004267604,0.0002241861,0.00007483974,0.000056478973,0.000040210838,0.00006955013,0.96069825,0.010094222,0.027855469,0.00038924723],"about_ca_topic_score_codex":0.000062619474,"about_ca_topic_score_gemma":0.0000069470993,"teacher_disagreement_score":0.034909822,"about_ca_system_score_codex":0.0003084269,"about_ca_system_score_gemma":0.00012252248,"threshold_uncertainty_score":0.9999601},"labels":[],"label_agreement":null},{"id":"W4400566034","doi":"10.1002/adma.202406671","title":"Tough Supramolecular Hydrogels Crafted via Lignin‐Induced Self‐Assembly","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Supramolecular Self-Assembly in Materials","field":"Materials Science","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick","funders":"Fujian Agriculture and Forestry University; China Scholarship Council; Canada Excellence Research Chairs, Government of Canada; Anhui Agricultural University; Government of Canada","keywords":"Self-healing hydrogels; Materials science; Supramolecular chemistry; Polyvinyl alcohol; Polymer; Ultimate tensile strength; Supramolecular polymers; Toughness; Nanotechnology; Chemical engineering; Lignin; Composite material; Polymer chemistry; Organic chemistry; Molecule; Chemistry","score_opus":0.007972359630271212,"score_gpt":0.2602213824686437,"score_spread":0.25224902283837247,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400566034","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9817143,0.00074834673,0.0025625906,0.00047143528,0.00871879,0.0012704675,0.00016270533,0.003211354,0.0011399931],"genre_scores_gemma":[0.9786938,0.00008535647,0.018565964,0.0008592594,0.00069623254,0.00050816225,0.000092130496,0.0003144219,0.00018468015],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9934348,0.00071448216,0.001425162,0.0017167883,0.0012202612,0.0014885162],"domain_scores_gemma":[0.9972222,0.0003026428,0.0002989155,0.0014852133,0.00033011282,0.0003609239],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0020133776,0.00092451135,0.0011393306,0.00033683,0.0002897196,0.0014815757,0.0010781973,0.00045611593,0.0020768174],"category_scores_gemma":[0.00035745345,0.0008838498,0.00024452194,0.000678925,0.00010087031,0.001379648,0.00045660388,0.00020392217,0.006975521],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009175948,0.00012372332,0.0000022037095,0.00033984907,0.000095285955,0.00069303514,0.000303709,0.00005159799,0.9948056,0.0014103816,0.0014488932,0.0006340069],"study_design_scores_gemma":[0.0006743278,0.00027679253,0.00002277785,0.00026918863,0.00016176616,0.00016794505,0.00005614998,0.00005223072,0.9783838,0.0043091592,0.014585638,0.0010402572],"about_ca_topic_score_codex":0.00009054477,"about_ca_topic_score_gemma":0.000007947614,"teacher_disagreement_score":0.016421787,"about_ca_system_score_codex":0.00039439314,"about_ca_system_score_gemma":0.00030850488,"threshold_uncertainty_score":0.999555},"labels":[],"label_agreement":null},{"id":"W4400690430","doi":"10.1002/adma.202405290","title":"Blue Laser Triggered Hemostatic Peptide Hydrogel for Gastrointestinal Bleeding Treatment","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Proteoglycans and glycosaminoglycans research","field":"Biochemistry, Genetics and Molecular Biology","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; University of Manitoba","funders":"","keywords":"Hemostasis; Coagulopathy; Upper gastrointestinal bleeding; Coagulation; Medicine; Gastrointestinal bleeding; Platelet; Materials science; Surgery; Endoscopy; Internal medicine","score_opus":0.01885958195515385,"score_gpt":0.3081248756075417,"score_spread":0.28926529365238784,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400690430","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906066,0.0005418384,0.0068439925,0.00021648347,0.0002704588,0.0008225055,0.00042507032,0.000052696123,0.0002203468],"genre_scores_gemma":[0.98321503,0.00019013908,0.010453543,0.00007476356,0.00034616317,0.0006530732,0.00040590978,0.000059492995,0.0046018558],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986678,0.000024504583,0.00025759358,0.00046539266,0.00013904473,0.0004457056],"domain_scores_gemma":[0.9994678,0.00004422983,0.00004130266,0.0002533769,0.000087774366,0.00010555383],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021977404,0.00021817072,0.0002206692,0.000060508784,0.00008976091,0.00010146889,0.00013243897,0.00005582161,0.00009288788],"category_scores_gemma":[0.00013432384,0.00018080318,0.00009847969,0.000073375995,0.00005298438,0.00001053872,0.000052695417,0.000036139598,0.000026548898],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041011794,0.000041184598,0.0000078837065,0.00010898949,0.00005069032,0.000031306165,0.000024251063,0.00010302216,0.9920739,0.00013605756,0.0009822376,0.0060303514],"study_design_scores_gemma":[0.0009014934,0.0011509893,0.000007694155,0.00009925898,0.000023330085,0.00010116125,0.000047124744,0.00011679522,0.9348506,0.00043725033,0.062081162,0.00018316288],"about_ca_topic_score_codex":0.000025080533,"about_ca_topic_score_gemma":0.000017742002,"teacher_disagreement_score":0.061098926,"about_ca_system_score_codex":0.00007884185,"about_ca_system_score_gemma":0.00015923945,"threshold_uncertainty_score":0.73729396},"labels":[],"label_agreement":null},{"id":"W4400787364","doi":"10.1002/adma.202470228","title":"Tumor‐Tailored Ionizable Lipid Nanoparticles Facilitate IL‐12 Circular RNA Delivery for Enhanced Lung Cancer Immunotherapy (Adv. Mater. 29/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Princess Margaret Cancer Centre; University Health Network; University of Toronto","funders":"","keywords":"Materials science; Immunotherapy; Lung cancer; Lung tumor; Cancer immunotherapy; Nanoparticle; Cancer; Cancer research; Nanotechnology; RNA; Medicine; Oncology; Biochemistry; Internal medicine; Biology","score_opus":0.01197720787145771,"score_gpt":0.2686708846275587,"score_spread":0.256693676756101,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400787364","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98462135,0.0072768168,0.0036517656,0.00015130368,0.0028111388,0.00069240155,0.00057095976,0.00013404044,0.000090224006],"genre_scores_gemma":[0.9907402,0.0034515774,0.00090202247,0.0005455401,0.00048655533,0.0007809264,0.00019235363,0.00011198915,0.0027888634],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979314,0.00006877655,0.00050478365,0.000732979,0.00017947063,0.0005825551],"domain_scores_gemma":[0.999105,0.0000253986,0.000107003514,0.0004689284,0.00020395237,0.00008973349],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026152062,0.00036317343,0.00037950254,0.00007247339,0.00012322732,0.00019656851,0.00029562588,0.0001381358,0.00037010375],"category_scores_gemma":[0.000042628744,0.00033733834,0.00017344972,0.00009803597,0.0000830888,0.000049096747,0.00009706345,0.000064579115,0.0000492339],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006748815,0.000030115545,0.000009954978,0.00033329154,0.00022701707,0.000009972533,0.0001738887,0.00051547005,0.99052274,0.00002835305,0.00336278,0.0041115573],"study_design_scores_gemma":[0.00071265147,0.00030915573,0.000046630037,0.00019958145,0.000049219263,0.000008516367,0.0000868097,0.0000858714,0.9489095,0.00023216727,0.04893561,0.00042424168],"about_ca_topic_score_codex":0.00007860332,"about_ca_topic_score_gemma":0.000020364863,"teacher_disagreement_score":0.045572832,"about_ca_system_score_codex":0.00007493566,"about_ca_system_score_gemma":0.00014363941,"threshold_uncertainty_score":0.99990785},"labels":[],"label_agreement":null},{"id":"W4400930171","doi":"10.1002/adma.202405576","title":"Plasmonic Nanostructures Grown from Reacting Droplet‐In‐Microwell Array on Flexible Films for Quantitative Surface‐Enhanced Raman Spectroscopy in Plant Wearable In Situ Detection","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Gold and Silver Nanoparticles Synthesis and Applications","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Canada Foundation for Innovation","keywords":"Materials science; Surface-enhanced Raman spectroscopy; Nanotechnology; Plasmon; Raman spectroscopy; Plasmonic nanoparticles; Wearable computer; Nanoparticle; Optoelectronics; Raman scattering; Computer science; Optics","score_opus":0.015176333861462646,"score_gpt":0.27465419239999334,"score_spread":0.25947785853853067,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400930171","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99741113,0.00021718115,0.00037145035,0.00009509321,0.0007215829,0.00065353344,0.00025998757,0.00009635659,0.00017369987],"genre_scores_gemma":[0.9926995,0.000115550145,0.006813827,0.000033636195,0.000039542956,0.00018998391,0.000030695493,0.000031910993,0.000045366076],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99817944,0.000091431866,0.0005236792,0.0006017326,0.00014989592,0.00045380695],"domain_scores_gemma":[0.9991916,0.00040629774,0.00011871808,0.00021997803,0.00002181458,0.000041627],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00047120274,0.00021696028,0.00039040812,0.00012731884,0.00008613856,0.00018814977,0.0001577846,0.00009344557,0.00016252165],"category_scores_gemma":[0.000108822285,0.0001941683,0.000043190143,0.0002450852,0.00003895765,0.00031692078,0.000023105691,0.000100542675,0.00009207215],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00039837603,0.000060176928,0.000016141317,0.00005107045,0.0000037003442,0.000005730579,0.0005158808,0.0019178293,0.9961301,0.0006756144,0.000017489265,0.00020786507],"study_design_scores_gemma":[0.0006064517,0.00012541265,0.0007580512,0.00048524077,0.0000069183548,0.0000011466619,0.00039370326,0.0001049634,0.9918501,0.005260346,0.00017845741,0.00022921461],"about_ca_topic_score_codex":0.000557953,"about_ca_topic_score_gemma":0.001956118,"teacher_disagreement_score":0.006442377,"about_ca_system_score_codex":0.00015793805,"about_ca_system_score_gemma":0.000046774272,"threshold_uncertainty_score":0.7917954},"labels":[],"label_agreement":null},{"id":"W4400988332","doi":"10.1002/adma.202403477","title":"Automated Synthesis of DNA Nanostructures","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fonds de recherche du Québec – Nature et technologies; Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canada Foundation for Innovation","keywords":"Nanotechnology; Materials science; Supramolecular chemistry; DNA origami; DNA nanotechnology; Workflow; Nanotube; Self-assembly; DNA; Automation; Nanostructure; Computer science; Molecule; Carbon nanotube; Engineering; Chemistry","score_opus":0.004844047090528554,"score_gpt":0.271418674058472,"score_spread":0.26657462696794343,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400988332","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99782515,0.00054293993,0.00027856528,0.00005763461,0.00027783585,0.00010465027,0.00015427178,0.00035239453,0.00040656258],"genre_scores_gemma":[0.9909194,0.0002972662,0.0083928,0.000043436055,0.00009763803,0.0000137806965,0.00006113243,0.000025571153,0.00014899336],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991431,0.000040764848,0.0002545697,0.0002906816,0.00011501682,0.00015584158],"domain_scores_gemma":[0.9995281,0.000020511572,0.00007050294,0.00027294416,0.00007848108,0.000029435076],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013744534,0.0001447235,0.00021507016,0.00006221838,0.000030161265,0.000025806743,0.00011007722,0.00011431481,0.000013162192],"category_scores_gemma":[0.00017232599,0.00011418748,0.00007618338,0.00010888544,0.00008178203,0.000005485258,0.00005647806,0.000024070589,0.0000041587396],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048938186,0.000008936161,0.000002767401,0.0000705249,0.000059160448,0.000004764645,0.0000046770783,0.000006750592,0.99312675,0.00014742056,0.0008436011,0.0056757117],"study_design_scores_gemma":[0.00005057882,0.00006634338,0.00005962136,0.00008895844,0.00003698592,0.000014842631,0.000011157176,0.000011806197,0.99069023,0.00036877222,0.008458912,0.00014178472],"about_ca_topic_score_codex":0.0000045129964,"about_ca_topic_score_gemma":0.0000027685778,"teacher_disagreement_score":0.008114235,"about_ca_system_score_codex":0.0000107735805,"about_ca_system_score_gemma":0.000031536158,"threshold_uncertainty_score":0.46564302},"labels":[],"label_agreement":null},{"id":"W4401184460","doi":"10.1002/adma.202407266","title":"Conductive Zeolite Supported Indium–Tin Alloy Nanoclusters for Selective and Scalable Formic Acid Electrosynthesis","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"University of Waterloo; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Electrosynthesis; Faraday efficiency; Nanoclusters; Materials science; Zeolite; Electrocatalyst; Formic acid; Electrolysis; Inorganic chemistry; Chemical engineering; Catalysis; Nanotechnology; Electrolyte; Electrode; Chemistry; Electrochemistry; Organic chemistry; Physical chemistry","score_opus":0.008769527079860215,"score_gpt":0.260518958800978,"score_spread":0.25174943172111774,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401184460","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9938348,0.0007211494,0.0010416002,0.00032408346,0.0007830945,0.0009885916,0.00024376251,0.0007417674,0.0013211799],"genre_scores_gemma":[0.9930266,0.00020868887,0.0037605136,0.00011372935,0.00011868856,0.00060424564,0.00013037949,0.00007308273,0.00196404],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985588,0.00004462269,0.0003328889,0.00049851165,0.00013606295,0.00042910196],"domain_scores_gemma":[0.99940795,0.00008425738,0.00009562772,0.00020283485,0.0001321911,0.000077168916],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028887656,0.0002438673,0.00036216178,0.00015275432,0.00012325216,0.00013166503,0.000105842504,0.00013032519,0.00021691425],"category_scores_gemma":[0.000080314596,0.00022481327,0.000075357166,0.00021571647,0.000070604794,0.0004909845,0.000051914933,0.00007044095,0.00002396495],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020741869,0.000016261707,0.0000019821273,0.00013381048,0.000096763244,0.0000037716782,0.00025255664,0.000006684985,0.9813174,0.0055754916,0.0010541979,0.011333673],"study_design_scores_gemma":[0.0003065422,0.0001791327,0.000027890854,0.00006856884,0.000070662136,0.00005356584,0.00013836478,0.000019298892,0.9466042,0.012706223,0.03956463,0.00026092806],"about_ca_topic_score_codex":0.00013244592,"about_ca_topic_score_gemma":0.000031263677,"teacher_disagreement_score":0.03851043,"about_ca_system_score_codex":0.00018482907,"about_ca_system_score_gemma":0.000075803866,"threshold_uncertainty_score":0.9167619},"labels":[],"label_agreement":null},{"id":"W4401339407","doi":"10.1002/adma.202310668","title":"Emergence of Interfacial Magnetism in Strongly‐Correlated Nickelate‐Titanate Superlattices","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Magnetic and transport properties of perovskites and related materials","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan; University of British Columbia","funders":"H2020 European Research Council; Paul Scherrer Institut; Natural Sciences and Engineering Research Council of Canada; European Commission; Diamond Light Source; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; European Synchrotron Radiation Facility; National Science Foundation","keywords":"Condensed matter physics; Antiferromagnetism; Magnetism; Materials science; Superlattice; Magnon; Spintronics; Lanio; Cuprate; Electronic structure; Ferromagnetism; Superconductivity; Physics; Ferroelectricity","score_opus":0.006538287226043256,"score_gpt":0.23334256107318385,"score_spread":0.2268042738471406,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401339407","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.985391,0.006079888,0.00012818455,0.0001345119,0.00491289,0.00041131277,0.00021691847,0.00019752109,0.0025277722],"genre_scores_gemma":[0.9958324,0.001455739,0.0014010897,0.000016893531,0.00009305451,0.000051792,0.00003659048,0.000050747178,0.0010616911],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99719834,0.00009937256,0.0011758542,0.0006049834,0.0003608621,0.0005605957],"domain_scores_gemma":[0.99925125,0.00005945561,0.00014656613,0.00034168482,0.000104546256,0.00009647295],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00065178564,0.00034357756,0.0006268298,0.00020469331,0.000064518375,0.00012979246,0.00039870397,0.00022920808,0.034308],"category_scores_gemma":[0.000049912982,0.00027151045,0.00009069171,0.0002698104,0.00022329473,0.00062705117,0.00010130532,0.00014570971,0.0005190245],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025342117,0.000064174055,0.000029643916,0.0004971399,0.000020122385,0.00008022265,0.00057045126,0.00059014134,0.9927929,0.0026445743,0.00015679044,0.0023004017],"study_design_scores_gemma":[0.00075046887,0.00037862366,0.00038957107,0.0008301828,0.00007389847,0.000018114468,0.0003590841,0.00016016063,0.9911583,0.0013449283,0.0040885815,0.0004480773],"about_ca_topic_score_codex":0.00042030128,"about_ca_topic_score_gemma":0.000060678653,"teacher_disagreement_score":0.033788975,"about_ca_system_score_codex":0.000026650645,"about_ca_system_score_gemma":0.00008648525,"threshold_uncertainty_score":0.9999737},"labels":[],"label_agreement":null},{"id":"W4401397004","doi":"10.1002/adma.202404856","title":"Efficient Deep‐Blue Light‐Emitting Diodes Through Decoupling of Colloidal Perovskite Quantum Dots","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Korea Institute of Energy Technology Evaluation and Planning; National Research Foundation of Korea; Ministry of Science and ICT, South Korea; Ministry of Trade, Industry and Energy; National Research Foundation","keywords":"Materials science; Quantum dot; Decoupling (probability); Perovskite (structure); Optoelectronics; Light-emitting diode; Diode; Colloid; Blue light; Nanotechnology; Chemical engineering","score_opus":0.007569944823142552,"score_gpt":0.24555809248308283,"score_spread":0.23798814765994028,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401397004","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98412603,0.0019812381,0.010807915,0.00004340397,0.0015648496,0.00030498032,0.00017781166,0.0005358534,0.00045791327],"genre_scores_gemma":[0.9943116,0.00023502694,0.004921772,0.000015394342,0.00023905448,0.00013423004,0.000030907333,0.00008192742,0.000030126965],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985289,0.000016113023,0.00058842055,0.0003096408,0.00019654405,0.0003603583],"domain_scores_gemma":[0.999433,0.0000816632,0.00006575529,0.0003014865,0.00006323489,0.00005486106],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025502045,0.00025093777,0.000400797,0.00006891222,0.000092704606,0.00014355968,0.00018171767,0.000093963405,0.00016655856],"category_scores_gemma":[0.000041422925,0.0002325441,0.000071588445,0.00021583855,0.000038216906,0.00013808491,0.0000650097,0.00006687138,0.00009553998],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009577526,0.000016749404,0.0000022464033,0.00047010535,0.000031310363,0.000004249153,0.00069059175,0.08291707,0.91193944,0.0031985252,0.000039988478,0.0006801555],"study_design_scores_gemma":[0.00017414207,0.00002116216,0.000045555415,0.0002979529,0.000031932057,0.000008661815,0.00017831461,0.010805937,0.97962075,0.00072668394,0.007820989,0.00026793202],"about_ca_topic_score_codex":0.000011882814,"about_ca_topic_score_gemma":0.0000031069733,"teacher_disagreement_score":0.07211113,"about_ca_system_score_codex":0.00008033697,"about_ca_system_score_gemma":0.000020904721,"threshold_uncertainty_score":0.9482873},"labels":[],"label_agreement":null},{"id":"W4401400858","doi":"10.1002/adma.202409976","title":"Salt‐Assisted Recovery of Sodium Metal Anodes for High‐Rate Capability Sodium Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"State Key Laboratory of Powder Metallurgy; Natural Science Foundation of Hunan Province; China Postdoctoral Science Foundation; Central South University; National Natural Science Foundation of China","keywords":"Electrochemistry; Electrolyte; Materials science; Anode; Sodium; Metal; Salt (chemistry); Chemical engineering; Battery (electricity); Alkali metal; Energy storage; Oxygen evolution; Electrode; Inorganic chemistry; Chemistry; Metallurgy; Organic chemistry","score_opus":0.012129867973293603,"score_gpt":0.23727730826661134,"score_spread":0.22514744029331774,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401400858","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98010266,0.00071128167,0.01043152,0.00017064852,0.0048212395,0.0005472234,0.0014570795,0.0016389862,0.0001193454],"genre_scores_gemma":[0.9846294,0.00026585773,0.014236749,0.00002797741,0.00015205609,0.00033351989,0.00011582017,0.000098283075,0.00014032652],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983147,0.000040602325,0.0006769947,0.0004053254,0.00013183191,0.00043054813],"domain_scores_gemma":[0.9991034,0.00022204033,0.00009357394,0.00044386584,0.00009852711,0.000038573624],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003735388,0.00034986652,0.0006875635,0.00013498822,0.0000621986,0.00011374668,0.00022883718,0.00016468593,0.00021640869],"category_scores_gemma":[0.00015330446,0.000311583,0.000098110344,0.00015082503,0.0001587402,0.00060352107,0.00008682357,0.00006918485,0.00002794841],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014097245,0.000017932329,0.000002246454,0.0017501028,0.00009453228,0.000005841537,0.00003082191,0.00038332303,0.9893077,0.0020057163,0.00039654487,0.0058642384],"study_design_scores_gemma":[0.0002998598,0.0001330956,0.00025499432,0.00015084549,0.000053796153,0.0000067865953,0.000043606746,0.000028054077,0.9673565,0.025622817,0.0057147667,0.00033484565],"about_ca_topic_score_codex":0.000013199258,"about_ca_topic_score_gemma":0.000010799338,"teacher_disagreement_score":0.0236171,"about_ca_system_score_codex":0.00009478645,"about_ca_system_score_gemma":0.000026570617,"threshold_uncertainty_score":0.9999336},"labels":[],"label_agreement":null},{"id":"W4401428400","doi":"10.1002/adma.202470256","title":"Multifunctional Dopamine‐Based Hydrogel Microneedle Electrode for Continuous Ketone Sensing (Adv. Mater. 32/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Diabetes Management and Research","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Waterloo","funders":"","keywords":"Dopamine; Materials science; Ketone; Catechol; Self-healing hydrogels; Ketone bodies; Nanotechnology; Biomedical engineering; Polymer chemistry; Organic chemistry; Chemistry; Medicine; Biochemistry; Internal medicine","score_opus":0.015372922677008799,"score_gpt":0.3029126368063171,"score_spread":0.2875397141293083,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401428400","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9831364,0.000883241,0.0069758566,0.0017052877,0.0031495919,0.0018073289,0.00017449092,0.0004539376,0.001713852],"genre_scores_gemma":[0.944231,0.000035854435,0.01654731,0.0004917732,0.00076073554,0.00013232096,0.0005695844,0.000113554546,0.037117895],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99821615,0.000029282028,0.0003651201,0.00046710862,0.00033535316,0.0005870087],"domain_scores_gemma":[0.9992567,0.00015544477,0.000056755704,0.000263734,0.00016164612,0.000105740975],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005142211,0.0002372559,0.00043796416,0.00023216066,0.00010003718,0.0001498605,0.000080790596,0.00008502036,0.00077170675],"category_scores_gemma":[0.00013111954,0.0001987438,0.00011215297,0.00018947542,0.00007609475,0.00015163,0.000053241216,0.00010266379,0.00022449695],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006634793,0.000074909745,0.00001978995,0.0011181886,0.00013709647,0.00006666119,0.000016189877,0.00003596718,0.9799233,0.00030561272,0.0075152684,0.010123535],"study_design_scores_gemma":[0.0020263407,0.00035375997,0.000075612516,0.00036882143,0.00013008682,0.000012547698,0.000029457797,0.0017928143,0.86576295,0.0005959786,0.12863213,0.00021951956],"about_ca_topic_score_codex":0.000010246321,"about_ca_topic_score_gemma":0.0000029457547,"teacher_disagreement_score":0.12111687,"about_ca_system_score_codex":0.00013182143,"about_ca_system_score_gemma":0.00008891106,"threshold_uncertainty_score":0.8449648},"labels":[],"label_agreement":null},{"id":"W4401434887","doi":"10.1002/adma.202407717","title":"Supported IrO<sub>2</sub> Nanocatalyst with Multilayered Structure for Proton Exchange Membrane Water Electrolysis","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Fundamental Research Funds for the Central Universities; National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Overlayer; Materials science; Electrocatalyst; Oxygen evolution; Iridium; Catalysis; Anode; Electrolysis of water; Chemical engineering; Electrolysis; Amorphous solid; Proton exchange membrane fuel cell; Nanorod; Electrochemistry; Water splitting; Nanotechnology; Electrode; Chemistry; Crystallography; Photocatalysis; Physical chemistry","score_opus":0.0051473940344764005,"score_gpt":0.21589113421122383,"score_spread":0.21074374017674743,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401434887","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99589956,0.000294298,0.00039508246,0.00020952152,0.00063128636,0.0016276703,0.000111317,0.00070626114,0.0001250128],"genre_scores_gemma":[0.99448395,0.00012903298,0.0008355611,0.00012043686,0.00031397672,0.0012830588,0.002047142,0.00023693766,0.0005499149],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99691886,0.00007863703,0.00052696205,0.0009419492,0.0005253252,0.001008275],"domain_scores_gemma":[0.9987353,0.00006688729,0.00012615246,0.0006472069,0.0002845739,0.00013985438],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032800442,0.0005645608,0.0006687549,0.00030067412,0.00018429512,0.00017023666,0.00031817207,0.0002512983,0.00048170876],"category_scores_gemma":[0.00004867132,0.00038600966,0.00014495454,0.0003574969,0.00006768923,0.00065050507,0.000079949,0.00013658204,0.000107515465],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012618436,0.00003255614,0.0000011252686,0.0011594316,0.00031761735,0.00005493298,0.00026027794,0.00050300604,0.99067026,0.0002603402,0.00009667512,0.0053819376],"study_design_scores_gemma":[0.0015209173,0.00039339435,0.000003406537,0.00012591807,0.00025222095,0.0000634304,0.000019469688,0.00011376831,0.95556456,0.0005835667,0.04078533,0.00057401456],"about_ca_topic_score_codex":0.00011867959,"about_ca_topic_score_gemma":0.00048673956,"teacher_disagreement_score":0.040688656,"about_ca_system_score_codex":0.00031312834,"about_ca_system_score_gemma":0.00008970384,"threshold_uncertainty_score":0.99985915},"labels":[],"label_agreement":null},{"id":"W4401646508","doi":"10.1002/adma.202406105","title":"High Throughput Characterization of Organic Thin Film Transistors","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Ottawa","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; University of Ottawa","keywords":"Workflow; Automation; Multidisciplinary approach; Computer science; Electronics; Nanotechnology; Systems engineering; Manufacturing engineering; Materials science; Engineering; Electrical engineering; Mechanical engineering","score_opus":0.003977921451439825,"score_gpt":0.1924568961462016,"score_spread":0.18847897469476177,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401646508","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942025,0.00040750473,0.0027561483,0.00003445486,0.0018690814,0.00013134349,0.00013558223,0.0003504962,0.000112906],"genre_scores_gemma":[0.9985546,0.0007689933,0.00026371327,0.00001861843,0.000100311714,0.000009828448,0.00009870396,0.000060958355,0.00012426551],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993455,0.000011335405,0.0002489993,0.00012973858,0.000102242826,0.00016218434],"domain_scores_gemma":[0.99976134,0.000017714612,0.000023101218,0.00014839467,0.000026462936,0.000022972225],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000984427,0.000121575176,0.00019721381,0.000041202573,0.000018249662,0.000029474082,0.00008005565,0.00006574266,0.00078618707],"category_scores_gemma":[0.00000846289,0.0001184513,0.000026783386,0.00015695344,0.000011988396,0.00016920298,0.000008687891,0.000057497724,0.00004001714],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000005158647,0.0000050762496,5.74969e-7,0.00025928838,0.000026635425,0.0000022318156,0.0002019983,0.00047981835,0.9969394,0.0017785297,0.000060586954,0.00024066144],"study_design_scores_gemma":[0.000093990195,0.00003228905,0.00005481509,0.00006407742,0.000018500745,0.00000289786,0.000004666049,0.00021290907,0.99094856,0.0012198747,0.0072251796,0.00012227155],"about_ca_topic_score_codex":0.000004976523,"about_ca_topic_score_gemma":0.0000065017393,"teacher_disagreement_score":0.0071645924,"about_ca_system_score_codex":0.00006847858,"about_ca_system_score_gemma":0.000028002987,"threshold_uncertainty_score":0.8608197},"labels":[],"label_agreement":null},{"id":"W4401653289","doi":"10.1002/adma.202403701","title":"Ionizable Drugs Enable Intracellular Delivery of Co‐Formulated siRNA","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"RNA Interference and Gene Delivery","field":"Biochemistry, Genetics and Molecular Biology","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Princess Margaret Cancer Centre; University Health Network; University of Toronto","funders":"Canadian Institutes of Health Research; University of Toronto; Natural Sciences and Engineering Research Council of Canada; Amgen","keywords":"Materials science; Intracellular; Drug delivery; Nanotechnology; Biophysics; Biochemistry; Chemistry; Biology","score_opus":0.0061602891723440845,"score_gpt":0.2466931374581767,"score_spread":0.2405328482858326,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401653289","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994571,0.002871145,0.0002957518,0.00003393365,0.00055933173,0.000152054,0.00009678542,0.00003544121,0.0013845623],"genre_scores_gemma":[0.9952925,0.0013350471,0.00047244158,0.000111982066,0.0001606296,0.000017785624,0.00025853777,0.000028991615,0.0023221208],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99899364,0.00003182167,0.00030966318,0.0003031287,0.00012600685,0.00023572794],"domain_scores_gemma":[0.9994647,0.000011771892,0.00006533945,0.00028352885,0.00012861285,0.000046057557],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019543836,0.00015436496,0.00020315901,0.00005387007,0.000037969916,0.000046582405,0.00016178474,0.00012569864,0.00037451996],"category_scores_gemma":[0.000027093278,0.0001406582,0.00006641204,0.00008105855,0.000049359227,0.00001777317,0.000070032496,0.000042254822,0.00010940785],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001213413,0.000022870167,0.0000053846456,0.000109185465,0.00006322953,0.000010116869,0.000050146664,0.00019908448,0.99481755,0.00013551282,0.002494824,0.001970772],"study_design_scores_gemma":[0.00020765759,0.00020204313,0.000007250047,0.00008582359,0.000018538873,0.000008598571,0.00004833877,0.000029657924,0.9442701,0.00035715822,0.054607734,0.0001571279],"about_ca_topic_score_codex":0.00004224229,"about_ca_topic_score_gemma":0.0000018715725,"teacher_disagreement_score":0.05211291,"about_ca_system_score_codex":0.000017113953,"about_ca_system_score_gemma":0.00007805659,"threshold_uncertainty_score":0.57358754},"labels":[],"label_agreement":null},{"id":"W4401949211","doi":"10.1002/adma.202470283","title":"Wearable Aptalyzer Integrates Microneedle and Electrochemical Sensing for In Vivo Monitoring of Glucose and Lactate in Live Animals (Adv. Mater. 35/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Spectroscopy Techniques in Biomedical and Chemical Research","field":"Biochemistry, Genetics and Molecular Biology","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Population Health Research Institute; University of Waterloo; McMaster University","funders":"","keywords":"Materials science; Biomedical engineering; In vivo; Wearable computer; Electrochemistry; Nanotechnology; Continuous glucose monitoring; Microelectrode; Medicine; Computer science; Biology; Internal medicine; Electrode; Embedded system; Chemistry","score_opus":0.007747306602134523,"score_gpt":0.31081461062643156,"score_spread":0.30306730402429705,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401949211","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99433154,0.0049422067,0.00024053936,0.000056345485,0.00008713412,0.0002304425,0.000031750886,0.00001552405,0.00006449504],"genre_scores_gemma":[0.98484945,0.004332249,0.010515143,0.000013603974,0.00006763332,0.000039363673,0.0000105710615,0.000022142127,0.00014983054],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99900997,0.000022455954,0.00025695408,0.0003325439,0.000084753476,0.00029331102],"domain_scores_gemma":[0.9997274,0.000057416724,0.00002994968,0.00009745305,0.000035274625,0.000052501564],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025449958,0.00013453017,0.00023126317,0.00007038944,0.000014712973,0.00003739182,0.00006987325,0.00013992014,0.00002040214],"category_scores_gemma":[0.00014495217,0.000116664734,0.000022321963,0.00008942658,0.00012058734,0.000009294019,0.000106566724,0.000084914354,4.999341e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00030907817,0.000017561792,0.00013744502,0.00028936134,0.000011460228,0.0000055605306,0.000045841167,1.09169626e-7,0.9980865,0.000031794123,0.000041277515,0.0010240132],"study_design_scores_gemma":[0.0002853226,0.00019908605,0.0000539055,0.00041319855,0.000005244374,0.000011750896,0.000093108945,0.000016911517,0.995781,0.00201981,0.0009990936,0.00012155109],"about_ca_topic_score_codex":0.00003100876,"about_ca_topic_score_gemma":0.0000046179725,"teacher_disagreement_score":0.010274604,"about_ca_system_score_codex":0.0000349895,"about_ca_system_score_gemma":0.000027618757,"threshold_uncertainty_score":0.475745},"labels":[],"label_agreement":null},{"id":"W4401953850","doi":"10.1002/adma.202405214","title":"Wafer‐Scale Transfer of MXene Films with Enhanced Device Performance via 2D Liquid Intercalation","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"King Abdullah University of Science and Technology","keywords":"Materials science; Stacking; MXenes; Wafer; Intercalation (chemistry); Nanotechnology; Heterojunction; van der Waals force; Microelectronics; Transfer printing; Optoelectronics; Chemical engineering; Composite material; Molecule; Organic chemistry","score_opus":0.008669974188258092,"score_gpt":0.2469613110756924,"score_spread":0.2382913368874343,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401953850","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98043334,0.000146276,0.0156397,0.000066717446,0.001714036,0.00054858765,0.00019414275,0.00030453684,0.00095266197],"genre_scores_gemma":[0.99477214,0.0001480926,0.004193321,0.00010504007,0.00016894216,0.00017539148,0.00007211256,0.0000723598,0.00029261765],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975612,0.00011478784,0.0008153055,0.0006039433,0.00043313263,0.00047163572],"domain_scores_gemma":[0.9990281,0.00008142504,0.000117532305,0.00046471244,0.00020613677,0.000102078586],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00067809003,0.0003589884,0.0006446282,0.00013122258,0.000090961694,0.0001443716,0.0003013062,0.00012758015,0.0048952717],"category_scores_gemma":[0.000025684896,0.00027513818,0.00006416739,0.00024573677,0.0001356061,0.0009762953,0.000071479815,0.0000685587,0.00037190324],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001298126,0.000055247896,0.000001214773,0.00074232346,0.00002026105,0.000007772549,0.00055664877,0.00024158391,0.9951701,0.00030708493,0.00005068464,0.0015489291],"study_design_scores_gemma":[0.00058945053,0.0008305196,0.00004626162,0.0006713017,0.00006627054,0.00002212927,0.000055333538,0.000042707237,0.9955261,0.000121496436,0.0016683708,0.0003600808],"about_ca_topic_score_codex":0.00004216217,"about_ca_topic_score_gemma":0.000021947404,"teacher_disagreement_score":0.01433878,"about_ca_system_score_codex":0.00005931479,"about_ca_system_score_gemma":0.00009902906,"threshold_uncertainty_score":0.9999701},"labels":[],"label_agreement":null},{"id":"W4402135020","doi":"10.1002/adma.202401560","title":"Designing for Degradation: Transient Devices Enabled by (Nano)Cellulose","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Euskal Herriko Unibertsitatea; Eusko Jaurlaritza; Canada Research Chairs","keywords":"Cellulosic ethanol; Materials science; Electronics; Transient (computer programming); Cellulose; Nanotechnology; Hazardous waste; Computer science; Engineering; Electrical engineering; Waste management","score_opus":0.05701442189560149,"score_gpt":0.3653160065653163,"score_spread":0.3083015846697148,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402135020","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00007652575,0.97831225,0.012507675,0.000044059743,0.0022952734,0.00402436,0.0020684458,0.0004451846,0.00022622579],"genre_scores_gemma":[0.000034649063,0.9656592,0.023310322,0.000033943532,0.00042229943,0.0040933117,0.0007727573,0.00028251117,0.0053909905],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99422,0.00039771624,0.001648519,0.0016006716,0.0008015298,0.0013315486],"domain_scores_gemma":[0.99714327,0.0008797925,0.00070215645,0.0007288884,0.0003117834,0.00023413164],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0016072703,0.0011375756,0.003154096,0.00026548482,0.0003632967,0.00050301885,0.0008697856,0.00036157016,0.00055904634],"category_scores_gemma":[0.0004362929,0.0008522316,0.0004829473,0.00044249717,0.00021081138,0.00060116185,0.00029476156,0.00022734396,0.00094519666],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006252425,0.00006970728,7.838809e-9,0.062261183,0.00019099968,0.000032305066,0.00008763786,0.000006121062,0.7441546,0.0004327829,0.008742979,0.18395916],"study_design_scores_gemma":[0.0002596204,0.000111038076,5.3928537e-9,0.0073635494,0.00075068703,0.000013070152,0.00003292522,5.505679e-7,0.30079553,0.00042504127,0.68960744,0.0006405811],"about_ca_topic_score_codex":0.000011132142,"about_ca_topic_score_gemma":0.000006440923,"teacher_disagreement_score":0.68086445,"about_ca_system_score_codex":0.0005532279,"about_ca_system_score_gemma":0.00043284523,"threshold_uncertainty_score":0.9998327},"labels":[],"label_agreement":null},{"id":"W4402310663","doi":"10.1002/adma.202407791","title":"Materials Acceleration Platforms (MAPs): Accelerating Materials Research and Development to Meet Urgent Societal Challenges","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Natural Resources Canada","funders":"","keywords":"Materials science; Acceleration; Nanotechnology; Systems engineering; Engineering physics; Construction engineering; Engineering ethics; Engineering; Physics","score_opus":0.11715102552296544,"score_gpt":0.3799416455028024,"score_spread":0.262790619979837,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402310663","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98890424,0.0007416704,0.00034920647,0.0009801066,0.005876801,0.0015145659,0.00035659445,0.00072385307,0.00055297214],"genre_scores_gemma":[0.9573795,0.00032302752,0.039555732,0.0002284869,0.00092843664,0.00085893826,0.00012758626,0.00015238686,0.0004458857],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9929815,0.0004530331,0.0015675718,0.0018233616,0.0016133257,0.0015612183],"domain_scores_gemma":[0.9976809,0.00039645773,0.00027243842,0.0007360515,0.00043063593,0.00048349053],"candidate_categories":["metaepi_narrow","scholarly_communication","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0099127535,0.0006899202,0.0009648326,0.00045040433,0.0010264224,0.0036056144,0.000906349,0.00028448255,0.0066360338],"category_scores_gemma":[0.0009495803,0.0005816816,0.000038763956,0.00039304537,0.0003008627,0.0018023427,0.0011645687,0.00016337675,0.0019687691],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016672602,0.00005343225,0.0000020950813,0.0007270693,0.000019840272,0.000048828875,0.0028037827,0.00011930302,0.98106635,0.012074766,0.00082116685,0.0020966332],"study_design_scores_gemma":[0.0003330094,0.00028926693,0.00017189619,0.00053449563,0.000011183955,0.00009160223,0.00046351078,0.000008751506,0.9828068,0.004061472,0.010526392,0.00070162234],"about_ca_topic_score_codex":0.000075425545,"about_ca_topic_score_gemma":0.000034228084,"teacher_disagreement_score":0.039206527,"about_ca_system_score_codex":0.0003934163,"about_ca_system_score_gemma":0.0004141133,"threshold_uncertainty_score":0.9996635},"labels":[],"label_agreement":null},{"id":"W4402311101","doi":"10.1002/adma.202406611","title":"Complex Deformation in Soft Cylindrical Structures via Programmable Sequential Instabilities","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Air Force Research Laboratory; Division of Materials Research","keywords":"Buckle; Buckling; Inflatable; Materials science; Hyperelastic material; Deformation (meteorology); Instability; Twist; Structural engineering; Bending; Mechanics; Composite material; Geometry; Finite element method; Physics; Engineering; Mathematics","score_opus":0.015200096773041506,"score_gpt":0.2541951662343573,"score_spread":0.23899506946131577,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402311101","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.92680603,0.0006686506,0.066404045,0.000030835094,0.0036451842,0.0006095245,0.00011263882,0.0012292361,0.0004938485],"genre_scores_gemma":[0.98794574,0.00013100124,0.011465677,0.000020568623,0.0001510465,0.00007810148,0.00012666396,0.000054788314,0.000026393107],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988817,0.000018142991,0.0003836776,0.0002023055,0.00015539178,0.00035876318],"domain_scores_gemma":[0.9997079,0.000022838918,0.00002636522,0.00016248162,0.000030386956,0.00005007771],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017541609,0.00019917273,0.00027728066,0.0000785954,0.00004279868,0.0001445661,0.00010160645,0.00009641534,0.0006964261],"category_scores_gemma":[0.000020925921,0.00018903778,0.000032668162,0.00010990037,0.000029244651,0.0005309867,0.000042301424,0.00007988679,0.0000738281],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000029025323,0.000007664461,5.548336e-7,0.000579083,0.0000107905325,0.000013266755,0.00032337295,0.024164416,0.9414716,0.0035426235,0.000046791632,0.029810851],"study_design_scores_gemma":[0.0005315888,0.00007073984,0.00007303736,0.00014148743,0.000016577611,0.000042090545,0.0001655186,0.016986817,0.8584926,0.0873336,0.03566134,0.00048461693],"about_ca_topic_score_codex":0.000021933805,"about_ca_topic_score_gemma":0.00004193577,"teacher_disagreement_score":0.08379097,"about_ca_system_score_codex":0.00014345277,"about_ca_system_score_gemma":0.000021067468,"threshold_uncertainty_score":0.7708737},"labels":[],"label_agreement":null},{"id":"W4402533900","doi":"10.1002/adma.202410547","title":"Microfluidic Platform for Generating and Releasing Patient‐Derived Cancer Organoids with Diverse Shapes: Insight into Shape‐Dependent Tumor Growth","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"3D Printing in Biomedical Research","field":"Engineering","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; Princess Margaret Cancer Centre; Canada Research Chairs; University Health Network; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Princess Margaret Cancer Foundation","keywords":"Organoid; Microfluidics; Regenerative medicine; Nanotechnology; Multicellular organism; Materials science; Biology; Cell biology; Cell; Stem cell","score_opus":0.013375325089123823,"score_gpt":0.2598380912395319,"score_spread":0.24646276615040807,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402533900","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98874533,0.0059998175,0.0034729405,0.000060910483,0.0006681789,0.00053357583,0.0000780304,0.0003790417,0.00006219016],"genre_scores_gemma":[0.98460114,0.0027638227,0.011921635,0.000086254724,0.00021314755,0.00025886347,0.000024016943,0.000108596956,0.000022530992],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984923,0.000020035417,0.0003329137,0.00039137766,0.0003221168,0.0004412376],"domain_scores_gemma":[0.99942136,0.00016196485,0.000036864774,0.00012571357,0.00011872372,0.00013538274],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017644666,0.0002473282,0.0002812338,0.00013393367,0.00015675169,0.00024788064,0.00014327152,0.00007806931,0.00022779961],"category_scores_gemma":[0.00017923095,0.00020326719,0.00002483549,0.00018579977,0.00008984011,0.0003693206,0.00013759235,0.00013442533,0.000014940544],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006376234,0.000007013864,0.000015184419,0.0010552546,0.000060962288,0.000038842485,0.0009724904,0.00008445199,0.95821416,0.0000914303,0.00016624303,0.039230224],"study_design_scores_gemma":[0.00050436496,0.000120264354,0.00006497064,0.00058687374,0.000026638094,0.00001699159,0.00018145978,0.0024552662,0.9911602,0.00021932846,0.004361647,0.00030197445],"about_ca_topic_score_codex":0.00006708462,"about_ca_topic_score_gemma":0.000015251886,"teacher_disagreement_score":0.038928248,"about_ca_system_score_codex":0.00023404045,"about_ca_system_score_gemma":0.000073469135,"threshold_uncertainty_score":0.82889956},"labels":[],"label_agreement":null},{"id":"W4402555445","doi":"10.1002/adma.202410121","title":"Manipulating the Electronic Properties of an Fe Single Atom Catalyst via Secondary Coordination Sphere Engineering to Provide Enhanced Oxygen Electrocatalytic Activity in Zinc‐Air Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":155,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"Northeast Petroleum University; Beijing Synchrotron Radiation Facility; National Synchrotron Radiation Laboratory; Natural Science Foundation of Heilongjiang Province; National Natural Science Foundation of China","keywords":"Electrocatalyst; Bifunctional; Materials science; Oxygen evolution; Electrochemistry; Catalysis; Electrochemical energy conversion; Oxygen reduction; Zinc; Electrochemical energy storage; Oxygen reduction reaction; Oxygen; Metal; Nanotechnology; Carbon fibers; Chemical engineering; Inorganic chemistry; Electrode; Chemistry; Metallurgy; Supercapacitor; Organic chemistry; Physical chemistry","score_opus":0.007327834316383639,"score_gpt":0.2117355982205781,"score_spread":0.20440776390419446,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402555445","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961746,0.000346529,0.0020447718,0.00020152143,0.00028171096,0.00052870595,0.0000046183472,0.00027668322,0.00014086634],"genre_scores_gemma":[0.99895537,0.000008377578,0.00027938563,0.000051656883,0.00010574864,0.00021311178,0.00007576257,0.00010679091,0.00020378923],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977855,0.00010371241,0.0005148236,0.0005624616,0.00035806771,0.00067544065],"domain_scores_gemma":[0.99911433,0.00006898648,0.0001499118,0.00048058238,0.00012069129,0.000065497945],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048350345,0.00035238356,0.0004523029,0.00020333716,0.00010043529,0.00009585238,0.0003489152,0.00011104941,0.000055897173],"category_scores_gemma":[0.000110464156,0.00029342802,0.00006588844,0.00057802757,0.00004242771,0.0011668517,0.00012613664,0.00020618532,0.000028990371],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024161862,0.000045119188,0.0000013239769,0.0004348696,0.000060641138,0.0000065981953,0.00045379315,0.006745986,0.9774378,0.0010521611,0.0000047243047,0.013515398],"study_design_scores_gemma":[0.0002834946,0.0003038376,0.00014894847,0.00029928167,0.000035140474,0.00001805262,0.00009597345,0.0009971787,0.9956875,0.0003334335,0.001456199,0.000340996],"about_ca_topic_score_codex":0.0012687109,"about_ca_topic_score_gemma":0.0037107796,"teacher_disagreement_score":0.018249698,"about_ca_system_score_codex":0.00092379004,"about_ca_system_score_gemma":0.00020759528,"threshold_uncertainty_score":0.9999518},"labels":[],"label_agreement":null},{"id":"W4402816140","doi":"10.1002/adma.202411968","title":"Multi‐Functional Silole Hole Transport Layer for Efficient and Stable Lead–Tin Perovskite and Tandem Solar Cells","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of New Brunswick; University of Toronto","funders":"Natural Science Foundation of Beijing Municipality; Ministry of Science and Technology of the People's Republic of China; National Natural Science Foundation of China","keywords":"PEDOT:PSS; Perovskite (structure); Materials science; Tandem; Optoelectronics; Layer (electronics); Tin; Electron mobility; Thermal stability; Chemical engineering; Nanotechnology; Composite material","score_opus":0.013529325485455603,"score_gpt":0.2297121541392418,"score_spread":0.21618282865378619,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402816140","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9599897,0.00085924583,0.03698906,0.00004978404,0.00064431044,0.00042889235,0.0006848743,0.00028451986,0.00006957439],"genre_scores_gemma":[0.9918269,0.0002894402,0.0070462744,0.000029171348,0.00013292348,0.00024364408,0.00007692383,0.00005392498,0.00030082295],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99914765,0.000008248852,0.00023895425,0.0002767785,0.000087635264,0.00024074994],"domain_scores_gemma":[0.99972045,0.000047543985,0.000018860605,0.00011986886,0.00003145165,0.00006182052],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001899834,0.00017416947,0.00021948549,0.000048703856,0.00009668483,0.00011494589,0.000044057408,0.00006722022,0.00010514844],"category_scores_gemma":[0.000005900083,0.00016260654,0.000026981425,0.000057739806,0.000035792982,0.00012452087,0.000016040594,0.000039179977,0.000021938626],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000014618064,0.000015307129,0.000005635438,0.00028879926,0.000017302098,0.0000014721674,0.00011973116,0.010848304,0.98751956,0.0002183807,0.00019895763,0.0007519031],"study_design_scores_gemma":[0.00046410886,0.00002422237,0.0005365052,0.00006734105,0.000033012035,0.0000042614715,0.000044148495,0.006540626,0.9474529,0.00013531887,0.044474464,0.00022309643],"about_ca_topic_score_codex":0.0000075987455,"about_ca_topic_score_gemma":0.000006023559,"teacher_disagreement_score":0.044275507,"about_ca_system_score_codex":0.000028987459,"about_ca_system_score_gemma":0.0000123270665,"threshold_uncertainty_score":0.6630902},"labels":[],"label_agreement":null},{"id":"W4402991429","doi":"10.1002/adma.202412701","title":"Aggregation‐Disruption‐Induced Multi‐Scale Mediating Strategy for Anticoagulation in Blood‐Contacting Devices","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Nanjing Medical University; National Natural Science Foundation of China; Canada Research Chairs; Government of Jiangsu Province; Innovative Research Group Project of the National Natural Science Foundation of China","keywords":"Fibrin; Materials science; Coagulation; Biomedical engineering; Thrombus; Biophysics; Nanotechnology; Surgery; Medicine; Immunology; Biology","score_opus":0.05232655965143397,"score_gpt":0.36604045139953834,"score_spread":0.3137138917481044,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402991429","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932196,0.00062948157,0.0020983065,0.0001379663,0.002905097,0.00052578375,0.000111283975,0.0002795392,0.00009290417],"genre_scores_gemma":[0.9893721,0.000036747864,0.009898344,0.000042713036,0.00021967042,0.00024131242,0.000031238982,0.00003868925,0.00011918672],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981516,0.00009403199,0.0006718761,0.00047511552,0.00023401693,0.00037337895],"domain_scores_gemma":[0.9989469,0.00047499832,0.00022674161,0.00017473433,0.00012991851,0.000046674562],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0007183848,0.00021523668,0.00034781324,0.00015257331,0.0001622519,0.0003252444,0.00013090624,0.000080386264,0.00018607946],"category_scores_gemma":[0.0002885337,0.00020491207,0.000049067497,0.00018466546,0.000026868269,0.0012860588,0.000055410575,0.0000677511,0.00011172852],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000041195544,0.00003301841,0.00037142335,0.0001775783,0.000015523774,0.0000054069574,0.000586688,0.0005827879,0.9949804,0.00016699858,0.0000052087466,0.003033749],"study_design_scores_gemma":[0.00056667184,0.000050068855,0.0029855133,0.00031304872,0.00003591403,0.000008086362,0.0007520634,0.00078287354,0.9938798,0.00024344758,0.00015330611,0.00022922055],"about_ca_topic_score_codex":0.00019976021,"about_ca_topic_score_gemma":0.0004260611,"teacher_disagreement_score":0.007800038,"about_ca_system_score_codex":0.00010271314,"about_ca_system_score_gemma":0.000056219702,"threshold_uncertainty_score":0.8356072},"labels":[],"label_agreement":null},{"id":"W4403360514","doi":"10.1002/adma.202409819","title":"Carbon Dots Infused 3D Printed Cephalopod Mimetic Bactericidal and Antioxidant Hydrogel for Uniaxial Mechano‐Fluorescent Tactile Sensor","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo; McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; McMaster University","keywords":"Materials science; Nanotechnology; Fluorescence; Biomaterial; Self-healing hydrogels; Biocompatibility; Biomedical engineering; Optics","score_opus":0.022177305793252368,"score_gpt":0.3000162815281355,"score_spread":0.2778389757348831,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403360514","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961108,0.000104310835,0.0002513438,0.0000632656,0.0016482029,0.0011492028,0.00031624595,0.0001917843,0.00016485351],"genre_scores_gemma":[0.9968519,0.00040732755,0.0020212627,0.000075917276,0.00017979587,0.00018728344,0.000015035933,0.00007338647,0.00018808138],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99777174,0.00012217302,0.00037722845,0.00072644756,0.00040499083,0.0005974453],"domain_scores_gemma":[0.99909174,0.00026985703,0.00007167756,0.0003079714,0.000082616585,0.00017614743],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030159287,0.00027839962,0.00035194354,0.00018552775,0.00012209399,0.00028966102,0.00021934776,0.00010432274,0.00013618548],"category_scores_gemma":[0.00039392922,0.0002446366,0.000057392084,0.00024592562,0.0001227066,0.00019199165,0.00016053299,0.000111873975,0.000026518614],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003164705,0.00005417623,0.0000068073027,0.00027558213,0.000011619229,0.00003580152,0.00013724108,0.000009188098,0.99706316,0.00038970885,0.0000115197545,0.001688704],"study_design_scores_gemma":[0.0008087881,0.0002487202,0.00011744754,0.00009531004,0.000022389666,0.000036892878,0.000021081665,0.0009031732,0.9918539,0.00049623376,0.0051174345,0.00027860733],"about_ca_topic_score_codex":0.000031408876,"about_ca_topic_score_gemma":0.000004428974,"teacher_disagreement_score":0.00520926,"about_ca_system_score_codex":0.00010222349,"about_ca_system_score_gemma":0.00009451908,"threshold_uncertainty_score":0.9975992},"labels":[],"label_agreement":null},{"id":"W4403378779","doi":"10.1002/adma.202412570","title":"Embedding Reverse Electron Transfer Between Stably Bare Cu Nanoparticles and Cation‐Vacancy CuWO <sub>4</sub>","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Catalytic Processes in Materials Science","field":"Materials Science","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Waterloo","funders":"Argonne National Laboratory; Engineering and Physical Sciences Research Council; Natural Sciences and Engineering Research Council of Canada; Office of Science; National Synchrotron Radiation Laboratory; National Natural Science Foundation of China; Canadian Light Source; Hefei Science Center, Chinese Academy of Sciences; Natural Science Foundation of Guangxi Zhuang Autonomous Region; U.S. Department of Energy","keywords":"Materials science; Vacancy defect; Nanoparticle; Catalysis; Electron transfer; Chemical engineering; Passivation; Adsorption; Chemical physics; Nanotechnology; Photochemistry; Layer (electronics); Physical chemistry; Chemistry; Crystallography","score_opus":0.009934164605097526,"score_gpt":0.2734361022649625,"score_spread":0.26350193765986496,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403378779","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942365,0.0008809468,0.0017372199,0.0002981724,0.0014045058,0.00047553275,0.0004177917,0.00048364283,0.00006568861],"genre_scores_gemma":[0.9973703,0.00031864757,0.0015848484,0.000116255316,0.0003284015,0.00013303156,0.00004191362,0.00006704754,0.000039554936],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968865,0.000117540534,0.0006998904,0.0009569005,0.00054814643,0.0007910599],"domain_scores_gemma":[0.99891245,0.00020438981,0.00006566636,0.000475312,0.0001501485,0.00019201754],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0012718093,0.0003713214,0.00051419216,0.00014188078,0.0002762766,0.00075881433,0.00043229535,0.000119511984,0.000312437],"category_scores_gemma":[0.00031055333,0.0003447578,0.00004504407,0.0003706305,0.00026225607,0.0017129736,0.00017259509,0.000099309866,0.0003792891],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004952998,0.000014088376,0.000015452903,0.00048034167,0.0000089268,0.00001795416,0.0004023985,0.00008617032,0.9963043,0.00097375317,0.00014537429,0.0015017575],"study_design_scores_gemma":[0.0002902893,0.00008819027,0.00022437242,0.00038382955,0.00006164502,0.000036571186,0.000076739336,0.00002528149,0.993767,0.0035980945,0.0010212581,0.0004267261],"about_ca_topic_score_codex":0.000040736384,"about_ca_topic_score_gemma":0.00001634652,"teacher_disagreement_score":0.0031338003,"about_ca_system_score_codex":0.00020331888,"about_ca_system_score_gemma":0.00022192122,"threshold_uncertainty_score":0.99990046},"labels":[],"label_agreement":null},{"id":"W4403614699","doi":"10.1002/adma.202413629","title":"Azatriangulene‐Based Conductive C═C Linked Covalent Organic Frameworks with Near‐Infrared Emission","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Covalent Organic Framework Applications","field":"Materials Science","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Materials science; Covalent bond; Conjugated system; Conductivity; Acceptor; Fluorescence; Infrared; Analytical Chemistry (journal); Photochemistry; Physical chemistry; Polymer; Organic chemistry; Chemistry","score_opus":0.010559225720322377,"score_gpt":0.2687126571929521,"score_spread":0.25815343147262976,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403614699","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.921374,0.0011617751,0.07029456,0.0017740922,0.0020302406,0.0013481317,0.0002328571,0.0014179305,0.00036638588],"genre_scores_gemma":[0.9153549,0.000082555394,0.08220672,0.00048348602,0.00027469598,0.0003305775,0.00010519307,0.00016064975,0.0010012185],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997007,0.00014689978,0.00060770946,0.0010004006,0.0006364437,0.00060152094],"domain_scores_gemma":[0.99792266,0.0003939501,0.00020406774,0.0009820656,0.00028162161,0.0002156583],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0005914532,0.0004326379,0.00051061093,0.000116838426,0.0003087837,0.00063152774,0.0004949795,0.0004549153,0.011970777],"category_scores_gemma":[0.00029695866,0.00035202366,0.00007451951,0.0006933179,0.00025548151,0.0004929712,0.00014719792,0.0004327082,0.0014422223],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020082663,0.0000744471,0.000005847412,0.00019063093,0.000024247276,0.00003516539,0.0002950394,0.0002945606,0.99500865,0.0013656213,0.0011160953,0.0013888797],"study_design_scores_gemma":[0.0006519689,0.00018381355,0.00009718104,0.00063487364,0.00009298821,0.000027020416,0.00009589558,0.00025854804,0.95989984,0.004537126,0.03302805,0.0004927091],"about_ca_topic_score_codex":0.000011701209,"about_ca_topic_score_gemma":0.0000026281632,"teacher_disagreement_score":0.035108816,"about_ca_system_score_codex":0.00033464644,"about_ca_system_score_gemma":0.00058592035,"threshold_uncertainty_score":0.9998932},"labels":[],"label_agreement":null},{"id":"W4403779480","doi":"10.1002/adma.202470345","title":"Mechanoresponsive Drug Release from a Flexible, Tissue‐Adherent, Hybrid Hydrogel Actuator (Adv. Mater. 43/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Micro and Nano Robotics","field":"Physics and Astronomy","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Materials science; Actuator; Nanotechnology; Self-healing hydrogels; Drug delivery; Drug; Biomedical engineering; Polymer chemistry; Pharmacology; Medicine","score_opus":0.007023538271535608,"score_gpt":0.2569365262892737,"score_spread":0.24991298801773812,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403779480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848828,0.0006590119,0.005546053,0.00015894446,0.0036680934,0.0005881223,0.0029079542,0.00031180456,0.0012772314],"genre_scores_gemma":[0.981209,0.000065935485,0.003860155,0.00012530961,0.0008517786,0.00012572158,0.0005515045,0.000111722664,0.013098879],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980283,0.000079698766,0.00050036714,0.00063729833,0.00024349467,0.00051087036],"domain_scores_gemma":[0.99895823,0.00014593313,0.00013767392,0.0005036149,0.000079573045,0.00017496651],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0001634062,0.000411138,0.00050463044,0.000112452886,0.00012056097,0.0002659434,0.00027660187,0.00005225536,0.011964552],"category_scores_gemma":[0.00001738405,0.00037284652,0.00009759464,0.00016104567,0.000046197787,0.00035839772,0.00016460619,0.00013598113,0.002513917],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016667836,0.000060017628,0.000007744824,0.0000699102,0.00012431477,0.00006719568,0.00019153793,0.000043255703,0.97626054,0.006293758,0.008803982,0.007911047],"study_design_scores_gemma":[0.00046631455,0.000046822362,0.0000093668,0.0002093874,0.00009005929,0.0000035922515,0.00009528748,0.000025968428,0.8904334,0.03496918,0.07326123,0.0003894336],"about_ca_topic_score_codex":0.00027630216,"about_ca_topic_score_gemma":0.0000034235782,"teacher_disagreement_score":0.08582721,"about_ca_system_score_codex":0.00007127757,"about_ca_system_score_gemma":0.00012810259,"threshold_uncertainty_score":0.9998723},"labels":[],"label_agreement":null},{"id":"W4403985978","doi":"10.1002/adma.202470349","title":"High Throughput Characterization of Organic Thin Film Transistors (Adv. Mater. 44/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Ottawa","funders":"","keywords":"Materials science; Characterization (materials science); Throughput; Thin-film transistor; Nanotechnology; Thin film; Optoelectronics; Telecommunications; Computer science","score_opus":0.004235605226525691,"score_gpt":0.19732480477842504,"score_spread":0.19308919955189935,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403985978","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99242616,0.0004643388,0.0018828443,0.000049243463,0.004050186,0.0002120544,0.00027849886,0.00045872427,0.0001779462],"genre_scores_gemma":[0.99765986,0.0010375994,0.00033675847,0.000032018776,0.00014879723,0.000019277877,0.00016310277,0.0001035264,0.00049904844],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895966,0.000019848167,0.00039095085,0.00021058836,0.00015702064,0.0002619578],"domain_scores_gemma":[0.99963194,0.000023205443,0.000040870866,0.0002302785,0.000035169152,0.000038527367],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014327803,0.0002021063,0.00030767213,0.000071151386,0.00003040403,0.000059774713,0.0001302559,0.00010520039,0.0019514401],"category_scores_gemma":[0.000009615214,0.00019689753,0.000041547155,0.00023949155,0.000019701753,0.00026220604,0.000018142606,0.000091884605,0.00007634116],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000010922814,0.000008880012,0.0000013038948,0.00050902134,0.000045881392,0.000005562386,0.0002793697,0.0004998532,0.9968874,0.0013748279,0.00016297775,0.00021401019],"study_design_scores_gemma":[0.00014264135,0.0000505165,0.000075469135,0.000117674696,0.000032740572,0.000006563647,0.000009435736,0.00022677332,0.9875635,0.0012724145,0.010300922,0.00020136446],"about_ca_topic_score_codex":0.000009755235,"about_ca_topic_score_gemma":0.000009219944,"teacher_disagreement_score":0.0101379445,"about_ca_system_score_codex":0.000110847686,"about_ca_system_score_gemma":0.000038546146,"threshold_uncertainty_score":0.9989609},"labels":[],"label_agreement":null},{"id":"W4404077276","doi":"10.1002/adma.202407372","title":"Performance Prediction of High‐Entropy Perovskites La <sub>0.8</sub> Sr <sub>0.2</sub> Mn <sub>x</sub> Co <sub>y</sub> Fe <sub>z</sub> O <sub>3</sub> with Automated High‐Throughput Characterization of Combinatorial Libraries and Machine Learning","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electronic and Structural Properties of Oxides","field":"Materials Science","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Vector Institute; Structural Genomics Consortium; Canadian Institute for Advanced Research; University of Toronto","funders":"Natural Resources Canada; HORIZON EUROPE Marie Sklodowska-Curie Actions; HORIZON EUROPE Framework Programme; Office of Science; Agence Nationale de la Recherche; Generalitat de Catalunya; European Commission; University of Minnesota; U.S. Department of Energy","keywords":"Materials science; Perovskite (structure); Raman spectroscopy; Oxide; Electrochemistry; Oxygen; Analytical Chemistry (journal); Electrode; Physical chemistry; Crystallography; Physics; Optics","score_opus":0.005804497920861167,"score_gpt":0.19511936891579343,"score_spread":0.18931487099493227,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404077276","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9859013,0.001432495,0.0005648841,0.00028358932,0.004766772,0.0024616104,0.0020369112,0.0025021806,0.000050231578],"genre_scores_gemma":[0.9854982,0.00903709,0.00048582733,0.00013747808,0.0011432084,0.00043570966,0.0026850048,0.00056225265,0.000015250027],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.987466,0.0013244592,0.0034562892,0.0028330544,0.0022770674,0.002643131],"domain_scores_gemma":[0.9936853,0.0007038403,0.0025139293,0.0014439384,0.0010177759,0.00063520594],"candidate_categories":["metaepi_narrow","sts","scholarly_communication"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0019288852,0.002299794,0.0031875449,0.0008482154,0.0013871961,0.0014472213,0.0012006271,0.0011544863,0.000063032116],"category_scores_gemma":[0.000677077,0.0020581363,0.00040775628,0.0014093374,0.0018795733,0.006464933,0.0008320574,0.0012011378,0.00016041858],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0038684823,0.0003122095,0.000308866,0.0026837757,0.00040734137,0.00008492069,0.00095699145,0.0011834631,0.9758353,0.0017880528,0.00026167402,0.012308899],"study_design_scores_gemma":[0.0046803313,0.002614133,0.007688453,0.0020292783,0.00059720513,0.00023012533,0.0001501453,0.0019707296,0.976559,0.0012963918,0.00022164953,0.0019625565],"about_ca_topic_score_codex":0.0000676032,"about_ca_topic_score_gemma":0.000037595255,"teacher_disagreement_score":0.010346343,"about_ca_system_score_codex":0.00066932046,"about_ca_system_score_gemma":0.00087887095,"threshold_uncertainty_score":0.99991286},"labels":[],"label_agreement":null},{"id":"W4404286977","doi":"10.1002/adma.202410402","title":"Oxychloride Polyanion Clustered Solid‐State Electrolytes via Hydrate‐Assisted Synthesis for All‐Solid‐State Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Key Research and Development Program of China; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Amorphous solid; Hydrate; Chemical engineering; Electrolyte; Crystallite; Reagent; Solid-state; Alkali metal; Nanotechnology; Inorganic chemistry; Organic chemistry; Metallurgy; Chemistry; Physical chemistry","score_opus":0.009667241563054941,"score_gpt":0.2525886728058911,"score_spread":0.24292143124283616,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404286977","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.92093545,0.000956423,0.06620964,0.0004619068,0.004309255,0.0010725092,0.0009565778,0.0049730935,0.00012515702],"genre_scores_gemma":[0.9901089,0.0013023539,0.006337568,0.00013284435,0.00025296796,0.001167126,0.00011623895,0.00028846436,0.0002935019],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970128,0.000049083912,0.0009312239,0.0006867505,0.00024130201,0.0010788318],"domain_scores_gemma":[0.99878484,0.00031978215,0.0001307794,0.000565166,0.0000959442,0.00010345896],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032435762,0.00068663125,0.000908664,0.00027438448,0.00015557825,0.00047776,0.00039833592,0.00019205241,0.00017206253],"category_scores_gemma":[0.00014660084,0.0006327777,0.00014245446,0.00023584299,0.00011557994,0.00091020006,0.00012692531,0.00014099621,0.0001476632],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024071748,0.000019716415,0.0000012476138,0.0008563929,0.00021291281,0.00003717222,0.00009788122,0.0028463725,0.96975756,0.00012174818,0.000632041,0.025176212],"study_design_scores_gemma":[0.00036184085,0.00015444991,0.00006022378,0.00030557674,0.00007533843,0.00004122813,0.00003236786,0.0008494209,0.97345924,0.012401909,0.011514755,0.0007436214],"about_ca_topic_score_codex":0.000010366656,"about_ca_topic_score_gemma":0.000015338037,"teacher_disagreement_score":0.06917349,"about_ca_system_score_codex":0.00021465779,"about_ca_system_score_gemma":0.000029108825,"threshold_uncertainty_score":0.99961233},"labels":[],"label_agreement":null},{"id":"W4404426773","doi":"10.1002/adma.202470368","title":"Complex Deformation in Soft Cylindrical Structures via Programmable Sequential Instabilities (Adv. Mater. 46/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"","keywords":"Materials science; Deformation (meteorology); Composite material","score_opus":0.01484786182897275,"score_gpt":0.2557753057308539,"score_spread":0.24092744390188114,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404426773","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94425994,0.00070661656,0.044435713,0.000044917295,0.0072536296,0.0008720956,0.0002329642,0.0014691858,0.0007249588],"genre_scores_gemma":[0.9874876,0.00018918565,0.011565207,0.00003256852,0.0002130318,0.00012777322,0.0001928903,0.00008939588,0.000102345046],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99835694,0.000029935687,0.0005654893,0.0003028295,0.0002227502,0.000522029],"domain_scores_gemma":[0.9995641,0.00002906995,0.000044558972,0.00024259562,0.00004350947,0.00007617856],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00023879205,0.00030543286,0.0004078884,0.000119102544,0.000063988984,0.00024277053,0.00015505521,0.00014346123,0.0015878178],"category_scores_gemma":[0.000024211016,0.00028948011,0.00004841829,0.00015629665,0.00004385546,0.00073175,0.00007466258,0.000118863485,0.00013005409],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052318308,0.000012566546,0.0000011134797,0.0010420353,0.000019247927,0.000026420254,0.00041099903,0.020335536,0.95405567,0.0027418027,0.00011119811,0.0211911],"study_design_scores_gemma":[0.0006584288,0.00009790377,0.000089954585,0.00022325593,0.000026888083,0.00007073825,0.00023845829,0.012571213,0.87851655,0.06661207,0.04023566,0.0006588787],"about_ca_topic_score_codex":0.000034384164,"about_ca_topic_score_gemma":0.00004899187,"teacher_disagreement_score":0.07553911,"about_ca_system_score_codex":0.00020890491,"about_ca_system_score_gemma":0.000028975508,"threshold_uncertainty_score":0.9999557},"labels":[],"label_agreement":null},{"id":"W4404443666","doi":"10.1002/adma.202411677","title":"All‐In‐One Additive Enabled Efficient and Stable Narrow‐Bandgap Perovskites for Monolithic All‐Perovskite Tandem Solar Cells","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Shenzhen Municipal Science and Technology Innovation Council; Glaucoma Research Foundation; Southern University of Science and Technology; Aromatic Plant Research Center; Innovation and Technology Commission - Hong Kong; City University of Hong Kong; Shenzhen Science and Technology Innovation Program; Hong Kong University of Science and Technology; Innovation and Technology Commission; Environment and Ecology Bureau; Cancer Research Society","keywords":"Materials science; Tandem; Perovskite (structure); Energy conversion efficiency; Crystallinity; Band gap; Crystallization; Optoelectronics; Nanotechnology; Chemical engineering; Composite material","score_opus":0.01614466431654195,"score_gpt":0.24660387836485095,"score_spread":0.230459214048309,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404443666","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.990546,0.0021917801,0.002805335,0.00015528752,0.0009361511,0.0011522507,0.0012909796,0.0005429247,0.00037928935],"genre_scores_gemma":[0.9938533,0.0009227816,0.0034184842,0.00010248089,0.00022318424,0.0010032995,0.00019298622,0.00011444012,0.00016909475],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981101,0.00003820979,0.00052714546,0.0005141239,0.00018781619,0.0006225883],"domain_scores_gemma":[0.99927586,0.0001941858,0.00005021398,0.00028363283,0.000073735275,0.00012236676],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004814537,0.00034786237,0.0005090613,0.00015665671,0.00009027379,0.0003352768,0.0001565688,0.00016810601,0.0002462672],"category_scores_gemma":[0.00003886813,0.00034181442,0.00005667003,0.0001642688,0.00005376242,0.00026775355,0.000059593673,0.00010869356,0.0000616223],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000029787956,0.00003951683,0.0000014971288,0.0004750943,0.00005743379,0.0000060562193,0.00052236987,0.008573078,0.98777825,0.0008909069,0.0006198592,0.0010061587],"study_design_scores_gemma":[0.0006552518,0.00005169997,0.00012553857,0.00021254786,0.00005679508,0.0000050919725,0.00009441539,0.0035171676,0.93280816,0.001494776,0.060557008,0.00042155228],"about_ca_topic_score_codex":0.000035104396,"about_ca_topic_score_gemma":0.000016874832,"teacher_disagreement_score":0.059937146,"about_ca_system_score_codex":0.00014466463,"about_ca_system_score_gemma":0.000031899075,"threshold_uncertainty_score":0.9999034},"labels":[],"label_agreement":null},{"id":"W4404700673","doi":"10.1002/adma.202408543","title":"Quantitative Identification of Dopant Occupation in Li‐Rich Cathodes","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Argonne National Laboratory; Office of Energy Efficiency; Vehicle Technologies Office; Beijing Municipal Natural Science Foundation; Key Technologies Research and Development Program; University of Chicago; National Natural Science Foundation of China; Office of Science; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Dopant; Materials science; Doping; Cathode; Lithium (medication); Chemical engineering; Oxygen; Ion; Lattice (music); Nanotechnology; Optoelectronics; Physical chemistry; Chemistry","score_opus":0.018935503998363187,"score_gpt":0.3147042145703349,"score_spread":0.2957687105719717,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404700673","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.977638,0.0005393464,0.018629221,0.000015947659,0.0023035214,0.00030490206,0.00016315446,0.00022513219,0.00018074669],"genre_scores_gemma":[0.99376696,0.00021360349,0.005713329,0.000008364883,0.000041303956,0.00011831434,0.000054715874,0.00004076238,0.000042612544],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987467,0.000053866617,0.0006641834,0.00020501878,0.00015331348,0.00017690708],"domain_scores_gemma":[0.99956244,0.0000932574,0.00007563246,0.00020180304,0.000050540864,0.000016322172],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004565817,0.00014442291,0.00025666243,0.00017954354,0.000014822989,0.000053762113,0.00010661067,0.000048195136,0.00012394653],"category_scores_gemma":[0.000102195,0.00014536803,0.000013451599,0.00020693125,0.000029001358,0.0005257914,0.000018946646,0.000036523536,0.000089751884],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032760476,0.00001265398,0.00002126746,0.00047387893,0.000012007797,0.0000044067815,0.0003888381,0.013595591,0.9812222,0.0028700694,0.00005233891,0.0013140021],"study_design_scores_gemma":[0.00013571615,0.000029642004,0.0010604814,0.00020347624,0.000010282661,0.0000018332265,0.00007932675,0.00038574793,0.9931699,0.0045474223,0.00022971276,0.00014644382],"about_ca_topic_score_codex":0.0000075089256,"about_ca_topic_score_gemma":0.0000043346217,"teacher_disagreement_score":0.016128965,"about_ca_system_score_codex":0.000117866526,"about_ca_system_score_gemma":0.000012810146,"threshold_uncertainty_score":0.59279364},"labels":[],"label_agreement":null},{"id":"W4404718354","doi":"10.1002/adma.202411173","title":"Bacteriophage‐Activated DNAzyme Hydrogels Combined with Machine Learning Enable Point‐of‐Use Colorimetric Detection of <i>Escherichia coli</i>","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Biosensors and Analytical Detection","field":"Engineering","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Michael G. DeGroote Institute for Infectious Disease Research, McMaster University; Government of Ontario; McMaster University","keywords":"Deoxyribozyme; Escherichia coli; Nanotechnology; Aptamer; Population; Materials science; Bacteriophage; Cleave; Detection limit; Computational biology; Biology; DNA; Chemistry; Molecular biology; Biochemistry; Chromatography; Medicine","score_opus":0.005550691998583257,"score_gpt":0.19014131333313267,"score_spread":0.1845906213345494,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404718354","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99559027,0.0002700937,0.0028463237,0.0000069613416,0.00046581446,0.0002276883,0.00004727719,0.0003955742,0.00015001338],"genre_scores_gemma":[0.99866796,0.00017573156,0.0008366168,0.0000066653506,0.000036278456,0.000017959766,0.000018079936,0.000061989434,0.00017872457],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989778,0.00004933181,0.00038280585,0.00020248648,0.00016359643,0.0002239806],"domain_scores_gemma":[0.99952406,0.000110789326,0.00008326562,0.00014281477,0.00008259868,0.00005644602],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016551875,0.00019956961,0.0004050702,0.00019540988,0.000040733215,0.00005647195,0.00006143026,0.00010123689,0.000096070595],"category_scores_gemma":[0.00007706827,0.0001691732,0.000052550433,0.0007636706,0.000042125204,0.00036809675,0.000019593212,0.00014800938,0.000012686937],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028322276,0.000022143653,0.000010427484,0.0004188907,0.00009201961,0.000008720638,0.000026882411,0.004577524,0.9932541,0.000051564948,0.0000033089063,0.0012511769],"study_design_scores_gemma":[0.00046302617,0.00054249045,0.00019897969,0.00015665281,0.00005972775,0.0000061747564,0.00001347481,0.0039569163,0.99288553,0.00007248215,0.0014626108,0.00018195795],"about_ca_topic_score_codex":0.00007708036,"about_ca_topic_score_gemma":0.0000083059085,"teacher_disagreement_score":0.0030777003,"about_ca_system_score_codex":0.00006938646,"about_ca_system_score_gemma":0.000012489259,"threshold_uncertainty_score":0.6898683},"labels":[],"label_agreement":null},{"id":"W4404777680","doi":"10.1002/adma.202414169","title":"Experimental and Theoretical Insights into Single Atoms, Dual Atoms, and Sub‐Nanocluster Catalysts for Electrochemical CO<sub>2</sub> Reduction (CO<sub>2</sub>RR) to High‐Value Products","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":87,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Special Fund Project for Science and Technology Innovation Strategy of Guangdong Province; Université de Bordeaux; Centre National de la Recherche Scientifique; National Natural Science Foundation of China","keywords":"Catalysis; Nanomaterial-based catalyst; Materials science; Nanotechnology; Atom (system on chip); Selectivity; Electrochemistry; Transition metal; Realization (probability); Tandem; Combinatorial chemistry; Nanoparticle; Chemistry; Physical chemistry; Organic chemistry; Electrode; Computer science; Mathematics","score_opus":0.013342595628608064,"score_gpt":0.2930776018002977,"score_spread":0.2797350061716896,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404777680","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.49084502,0.5036055,0.00010952893,0.00012490568,0.0015774047,0.002976385,0.00016290286,0.00054068625,0.000057709447],"genre_scores_gemma":[0.4303648,0.5602137,0.0010509396,0.000086597865,0.0019678886,0.0028802615,0.0029089826,0.00046956178,0.000057254936],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99465716,0.00028552982,0.001478715,0.0021418498,0.00055217306,0.000884545],"domain_scores_gemma":[0.99788916,0.00010789585,0.00047337744,0.0008936279,0.00023293168,0.0004029881],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004768692,0.0012638738,0.0023887614,0.00046372175,0.0002676938,0.0003578365,0.00030457598,0.00083466526,0.000016129174],"category_scores_gemma":[0.00019175578,0.0010994652,0.00029155766,0.00049861276,0.00049382815,0.0004246845,0.00039519882,0.00038639636,0.00008582221],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029807436,0.0001439913,1.2247704e-8,0.00550186,0.00020043502,0.000019642734,0.00024608625,2.7466513e-7,0.9072585,0.019602858,0.0020158098,0.06471242],"study_design_scores_gemma":[0.00041179592,0.0004106548,1.2335688e-7,0.0022110497,0.00065268367,0.0005630153,0.000045675737,5.494865e-7,0.8192613,0.0063103754,0.16912183,0.001010943],"about_ca_topic_score_codex":0.000023578837,"about_ca_topic_score_gemma":0.0000069221455,"teacher_disagreement_score":0.16710602,"about_ca_system_score_codex":0.0007884328,"about_ca_system_score_gemma":0.00023707212,"threshold_uncertainty_score":0.99914557},"labels":[],"label_agreement":null},{"id":"W4404831865","doi":"10.1002/adma.202406054","title":"Multi‐Level High Entropy‐Dissipative Structure Enables Efficient Self‐Decoupling of Triple Signals","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Thermal properties of materials","field":"Materials Science","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Key Research and Development Program of Zhejiang Province; State Key Laboratory for Modification of Chemical Fibers and Polymer Materials; National Natural Science Foundation of China","keywords":"Materials science; Dissipative system; Decoupling (probability); Oxide; Entropy (arrow of time); Nanotechnology; Computer science; Thermodynamics; Physics; Control engineering","score_opus":0.01811692817521406,"score_gpt":0.26089624502191583,"score_spread":0.24277931684670176,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404831865","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98819274,0.0006411015,0.0010419063,0.0000712876,0.0056613376,0.0010685478,0.0027814575,0.0005140283,0.00002757279],"genre_scores_gemma":[0.9686347,0.000033421748,0.030426098,0.00005077502,0.00027962675,0.000102777085,0.000051102907,0.00010233684,0.00031912385],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9966148,0.00024169109,0.0010911834,0.00077852805,0.0005948066,0.0006789781],"domain_scores_gemma":[0.99848,0.00017981383,0.0003872358,0.00055291,0.0002677045,0.00013229967],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0009650267,0.0004723813,0.00088211393,0.0001467718,0.00015699684,0.00032779181,0.0005787388,0.00017766368,0.009894744],"category_scores_gemma":[0.00032964893,0.00036264642,0.0001011315,0.00015585289,0.00016852305,0.0004705454,0.0002896323,0.000093148425,0.00047013795],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000311549,0.00009471815,0.000001979936,0.00071872544,0.00005046698,0.000021917082,0.00081725966,0.0061799013,0.9906569,0.00072492694,0.00010607403,0.00031556416],"study_design_scores_gemma":[0.00080853933,0.00012914852,0.00018974871,0.00034501922,0.000066827415,0.0000104840865,0.00014604807,0.00015953972,0.9961759,0.000554356,0.0009831599,0.00043121923],"about_ca_topic_score_codex":0.00011944192,"about_ca_topic_score_gemma":0.000004062017,"teacher_disagreement_score":0.029384192,"about_ca_system_score_codex":0.00017798017,"about_ca_system_score_gemma":0.00014565911,"threshold_uncertainty_score":0.9998826},"labels":[],"label_agreement":null},{"id":"W4404831891","doi":"10.1002/adma.202414576","title":"Lattice Matching Anchoring of Hole‐Selective Molecule on Halide Perovskite Surfaces for n‐i‐p Solar Cells","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Science and Technology Research Partnership for Sustainable Development; Program for Professor of Special Appointment (Eastern Scholar) at Shanghai Institutions of Higher Learning; Iketani Science and Technology Foundation; Japan Society for the Promotion of Science; National Research Council Canada; Shanghai Rising-Star Program; Precursory Research for Embryonic Science and Technology; Murata Science Foundation; Japan Science and Technology Agency; Iwatani Naoji Foundation; International Institute for Carbon-Neutral Energy Research, Kyushu University; Japan Science and Technology Corporation; New Energy and Industrial Technology Development Organization; Asahi Glass Foundation","keywords":"Materials science; Halide; Anchoring; Perovskite (structure); Formamidinium; Passivation; Iodide; Molecule; Adsorption; Oxide; Chemical engineering; Inorganic chemistry; Nanotechnology; Physical chemistry; Organic chemistry; Chemistry","score_opus":0.009225585942360372,"score_gpt":0.2514431945154722,"score_spread":0.24221760857311184,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404831891","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9866717,0.0003044426,0.009948514,0.000033451724,0.0009680308,0.0004486737,0.00053801143,0.00037457835,0.00071261264],"genre_scores_gemma":[0.99242884,0.00018791747,0.006786857,0.00002272965,0.00018015453,0.00020699589,0.000033732482,0.000082682105,0.000070110254],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99896884,0.00002003184,0.00033839085,0.00026640014,0.00012507828,0.0002812699],"domain_scores_gemma":[0.999493,0.00014250897,0.000046558143,0.0002156861,0.000057398378,0.000044867516],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022980342,0.00020413156,0.00030594156,0.000081397826,0.0000652269,0.00012275773,0.00013405434,0.000067239234,0.00004700891],"category_scores_gemma":[0.000019764864,0.00019907572,0.0000574877,0.00012705433,0.00002103418,0.00021017117,0.000025899777,0.000056921304,0.00004470319],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002294876,0.000013112928,2.788682e-7,0.00051145605,0.000036948328,0.0000017183946,0.00025616042,0.034837984,0.96163595,0.0018146669,0.00017708339,0.00069172494],"study_design_scores_gemma":[0.0001693368,0.00005141364,0.000027576576,0.00022386627,0.000028657458,0.0000010063558,0.000042171672,0.000667716,0.99083114,0.0020694905,0.005681431,0.00020620615],"about_ca_topic_score_codex":0.0000202289,"about_ca_topic_score_gemma":0.0000040560685,"teacher_disagreement_score":0.034170266,"about_ca_system_score_codex":0.00007291163,"about_ca_system_score_gemma":0.000014475963,"threshold_uncertainty_score":0.8118072},"labels":[],"label_agreement":null},{"id":"W4405337758","doi":"10.1002/adma.202416926","title":"Amylopectin‐based Hydrogel Probes for Brain‐machine Interfaces","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Neuroscience and Neural Engineering","field":"Neuroscience","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"MacEwan University","funders":"National Natural Science Foundation of China","keywords":"Neuromodulation; Materials science; Biological neural network; Neuroscience; Biomedical engineering; Reconfigurability; Brain implant; Neuroprosthetics; Biocompatibility; Nanotechnology; Computer science; Medicine; Central nervous system; Biology","score_opus":0.0291041040788418,"score_gpt":0.30855632859865273,"score_spread":0.27945222451981094,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405337758","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9901715,0.00012849513,0.0037655737,0.0013479677,0.0028223242,0.0006664775,0.0001346888,0.00072570366,0.00023729933],"genre_scores_gemma":[0.9969292,0.000026609578,0.00071199273,0.0011261388,0.00010201493,0.0001925616,0.000003132573,0.00004934074,0.00085899426],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986097,0.000028965887,0.00024504677,0.0005651566,0.00019095442,0.0003601524],"domain_scores_gemma":[0.99925673,0.0004203934,0.00004105288,0.00020223233,0.000017348992,0.00006222528],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021429577,0.00019534382,0.00020036714,0.00011182455,0.00011844267,0.00021637887,0.0002685767,0.000035108547,0.000075916316],"category_scores_gemma":[0.00072797394,0.00015884578,0.000052660624,0.00025635798,0.000067985544,0.000533311,0.00005512058,0.000070688104,0.0000635309],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000038900336,0.000016243046,3.3844702e-7,0.00015395759,0.00000106412,0.00001901839,0.000035280864,0.00050265726,0.99486893,0.002178857,0.00021436653,0.0019703528],"study_design_scores_gemma":[0.00022194065,0.00015952063,0.0000024179687,0.00009468064,0.0000050360636,0.000018899984,0.0000041706744,0.0027930387,0.9700923,0.0011848983,0.025235664,0.00018741535],"about_ca_topic_score_codex":0.0000023858643,"about_ca_topic_score_gemma":0.0000012190613,"teacher_disagreement_score":0.025021298,"about_ca_system_score_codex":0.000030358311,"about_ca_system_score_gemma":0.00003124249,"threshold_uncertainty_score":0.6477543},"labels":[],"label_agreement":null},{"id":"W4405675482","doi":"10.1002/adma.202406349","title":"PEDOT:PSS‐Facilitated Directionally 3‐D Assembled MXene‐Based Aerogel for High‐Performance Chemoresistive Sensing &amp; Breath Analysis","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ontario Tech University; Western University; University of Waterloo; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"PEDOT:PSS; Materials science; Aerogel; Polystyrene sulfonate; Acetone; Nanotechnology; Optoelectronics; Chemical engineering; Composite material; Polymer; Organic chemistry; Chemistry","score_opus":0.01831001405312975,"score_gpt":0.2912210566661435,"score_spread":0.27291104261301374,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405675482","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96854955,0.00021738058,0.024534395,0.00019260081,0.0028090144,0.0008655238,0.0016957455,0.0008489044,0.00028688932],"genre_scores_gemma":[0.9606617,0.000055616685,0.03624321,0.00020437402,0.0003906032,0.0002857199,0.0008449146,0.000091043075,0.0012228271],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962708,0.00019562153,0.001015439,0.001151511,0.00057301443,0.000793615],"domain_scores_gemma":[0.9979566,0.00037980275,0.00029257013,0.00067196076,0.00052900915,0.00017008724],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0016290594,0.00055680354,0.0010895801,0.00044940045,0.000364126,0.00063637126,0.0003041665,0.00018837805,0.0020257975],"category_scores_gemma":[0.00033579356,0.00049832155,0.00023320176,0.0008022991,0.00009724523,0.00068133074,0.00010434641,0.00007434502,0.00044793205],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00055534963,0.000060946117,0.000008130339,0.0005693168,0.00024846915,0.000015100073,0.00008219029,0.0021791193,0.99402004,0.00047223756,0.0005498654,0.0012392415],"study_design_scores_gemma":[0.0009320807,0.000118675955,0.0007294523,0.0002050234,0.00073737005,0.000010181958,0.000016564518,0.00041596725,0.9885978,0.0007001007,0.00693434,0.000602439],"about_ca_topic_score_codex":0.00020837376,"about_ca_topic_score_gemma":0.00009270993,"teacher_disagreement_score":0.011708816,"about_ca_system_score_codex":0.00024622178,"about_ca_system_score_gemma":0.00025040584,"threshold_uncertainty_score":0.99974686},"labels":[],"label_agreement":null},{"id":"W4405675501","doi":"10.1002/adma.202416375","title":"Two‐dimensional Nanosheets by Liquid Metal Exfoliation","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"National Science Fund for Distinguished Young Scholars; National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Materials science; Exfoliation joint; Intercalation (chemistry); van der Waals force; Surface tension; Gallium; Graphene; Chemical engineering; Dispersion (optics); Phase (matter); Nanotechnology; Metal; Pulmonary surfactant; Birefringence; Molecule; Inorganic chemistry; Optics; Organic chemistry; Metallurgy","score_opus":0.009368616901267435,"score_gpt":0.28069634728528664,"score_spread":0.2713277303840192,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405675501","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9926515,0.000809684,0.0002627197,0.00047848647,0.0031902152,0.00036373854,0.000770233,0.00052390207,0.00094952167],"genre_scores_gemma":[0.99422014,0.000043360757,0.0037976229,0.00026031313,0.00035190722,0.0002779272,0.00020750571,0.000052849817,0.000788373],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981403,0.00008362881,0.000477614,0.0005543923,0.000364307,0.00037975615],"domain_scores_gemma":[0.9992954,0.0000773412,0.00010270355,0.00033261074,0.0000927168,0.000099223274],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00054696994,0.00023900381,0.0003078054,0.00006199665,0.00016405096,0.00030995932,0.00022182643,0.0000766976,0.0042385734],"category_scores_gemma":[0.00005399093,0.00020457868,0.00005478377,0.00014307415,0.00007280322,0.00058352563,0.00011228243,0.000044108856,0.002582867],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000069039466,0.000036141522,1.15413556e-7,0.000050486742,0.000008558508,0.000006206625,0.000033193795,0.00008588502,0.983823,0.009976375,0.005652468,0.0002585125],"study_design_scores_gemma":[0.00024333189,0.000077200384,0.000006385754,0.00006037806,0.000028174836,0.000016771592,0.00000786169,0.000011489466,0.958714,0.002674102,0.037915688,0.00024462616],"about_ca_topic_score_codex":0.000051234678,"about_ca_topic_score_gemma":0.0000027058668,"teacher_disagreement_score":0.03226322,"about_ca_system_score_codex":0.000078429795,"about_ca_system_score_gemma":0.00007044554,"threshold_uncertainty_score":0.99819374},"labels":[],"label_agreement":null},{"id":"W4405852519","doi":"10.1002/adma.202413499","title":"Challenges and Strategies of Low‐Pressure All‐Solid‐State Batteries","year":2024,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":94,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Materials science; Energy density; Nanotechnology; Electrochemical energy storage; High pressure; Solid-state; Energy storage; Scale (ratio); Process engineering; Systems engineering; Electrochemistry; Engineering physics; Mechanical engineering; Electrode; Engineering; Thermodynamics; Supercapacitor","score_opus":0.034749849223756124,"score_gpt":0.31215672594435023,"score_spread":0.2774068767205941,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405852519","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0004159565,0.9950784,0.000036073267,0.000012563164,0.0015868861,0.00051260437,0.00076692033,0.0010033476,0.0005872727],"genre_scores_gemma":[0.00332935,0.9953383,0.00064544374,0.000003469803,0.000101284844,0.00026018635,0.000056225024,0.00019538242,0.00007034658],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9979409,0.00004820634,0.0009157293,0.00050059555,0.00016785941,0.00042673378],"domain_scores_gemma":[0.9990731,0.000074015705,0.0002193659,0.000542585,0.00004380524,0.000047151385],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00016163658,0.00075455714,0.0024466245,0.00021387164,0.000024643025,0.000146816,0.00033332515,0.00034274565,0.00005185398],"category_scores_gemma":[0.000027840873,0.0005864026,0.0001193982,0.00008441029,0.00017619152,0.00041850074,0.00026160447,0.00018120519,0.00004614114],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000072709627,0.0000105132085,4.9530473e-9,0.21530387,0.000533623,0.000039612,0.0001331035,0.00011044215,0.019703694,0.0028217894,0.00015435468,0.7611817],"study_design_scores_gemma":[0.00011401487,0.00007544073,8.1869285e-7,0.018792734,0.00067849684,0.000046425605,0.00018778245,9.516883e-7,0.03342304,0.008149972,0.93781,0.0007203474],"about_ca_topic_score_codex":0.0000012775522,"about_ca_topic_score_gemma":0.0000031497716,"teacher_disagreement_score":0.9376556,"about_ca_system_score_codex":0.00002967409,"about_ca_system_score_gemma":0.000031838907,"threshold_uncertainty_score":0.99965876},"labels":[],"label_agreement":null},{"id":"W4405852658","doi":"10.1002/adma.202415721","title":"Time‐Reversal Symmetry Breaking Superconductivity in HfRhGe: A Noncentrosymmetric Weyl Semimetal","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Topological Materials and Phenomena","field":"Physics and Astronomy","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Science and Engineering Research Board; Science and Technology Facilities Council; Indian Institute of Technology Kanpur","keywords":"Weyl semimetal; Superconductivity; T-symmetry; Condensed matter physics; Physics; Topology (electrical circuits); Semimetal; Fermi level; Muon spin spectroscopy; Symmetry (geometry); Quantum mechanics; Electron; Geometry","score_opus":0.006704370431147834,"score_gpt":0.24821156576740738,"score_spread":0.24150719533625956,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405852658","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99247104,0.00030581074,0.00027727167,0.00009648825,0.0015485592,0.00027957626,0.00036685631,0.00012553387,0.0045288857],"genre_scores_gemma":[0.9981671,0.000012161602,0.00074948464,0.000030232328,0.00053825305,0.0000503305,0.00005766698,0.000036319077,0.00035844027],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983604,0.00012011043,0.0003904326,0.00047603267,0.00017492063,0.00047808955],"domain_scores_gemma":[0.9994687,0.00014309469,0.000060806502,0.00021753284,0.000027813629,0.000082048944],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00039613707,0.00026254758,0.00046815738,0.0001521554,0.000063229665,0.00020327566,0.00017284382,0.00006783533,0.0069475295],"category_scores_gemma":[0.000026378842,0.00022114362,0.000084473315,0.00044182828,0.00007303526,0.00051906717,0.00012395118,0.000126071,0.00056309334],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000042380034,0.00008893757,0.00023705707,0.000067221576,0.000040289597,0.000017840868,0.00009632072,0.000026924046,0.9393996,0.050363567,0.00006107434,0.009558776],"study_design_scores_gemma":[0.0014692547,0.00020627418,0.0027110954,0.00041399818,0.00008373091,0.000011388732,0.0002167062,0.00009307349,0.9100925,0.06996319,0.013675692,0.0010631153],"about_ca_topic_score_codex":0.00020737627,"about_ca_topic_score_gemma":0.0000011976947,"teacher_disagreement_score":0.029307129,"about_ca_system_score_codex":0.00008395669,"about_ca_system_score_gemma":0.000044892113,"threshold_uncertainty_score":0.99396026},"labels":[],"label_agreement":null},{"id":"W4405880509","doi":"10.1002/adma.202413948","title":"Multifunctional Quasi‐Homogeneous Catalysts as a New Catalytic Strategy to Boost the Performance of Li‐O<sub>2</sub> Batteries","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; National Key Research and Development Program of China; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Overpotential; Materials science; Catalysis; Homogeneous; Electrolyte; Anode; Chemical engineering; Deposition (geology); Redox; Nanotechnology; Electrochemistry; Electrode; Physical chemistry; Thermodynamics; Chemistry; Organic chemistry","score_opus":0.008160697852274265,"score_gpt":0.2194403860813087,"score_spread":0.21127968822903442,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405880509","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994335,0.00086703344,0.0009453879,0.00020123243,0.0021904788,0.00041988108,0.00016444208,0.0007979985,0.00007856963],"genre_scores_gemma":[0.99839973,0.00050334993,0.0003963332,0.00007537747,0.00021574624,0.000139444,0.00005394658,0.000080593185,0.00013545631],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99849516,0.000016259168,0.0005041898,0.00033760225,0.0002430604,0.0004037151],"domain_scores_gemma":[0.99922615,0.0000989601,0.000060506296,0.00046353677,0.000057807032,0.00009301681],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012730827,0.00033321712,0.00038975666,0.0001296087,0.00008851705,0.00013465204,0.00030997646,0.00010665403,0.0000785242],"category_scores_gemma":[0.000098555654,0.0002542486,0.000055799617,0.00024550175,0.00009665897,0.00039592804,0.00012205083,0.00009855549,0.00038953204],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000057457284,0.000011667395,0.0000023230027,0.0004403928,0.0000583387,0.000022437573,0.00013782985,0.015693534,0.95803595,0.0002387555,0.0011224024,0.024178917],"study_design_scores_gemma":[0.00015647845,0.00024992393,0.00010021656,0.00023028343,0.000032529155,0.0000753166,0.00007373894,0.0001327883,0.9936441,0.00047782302,0.0045284834,0.00029832657],"about_ca_topic_score_codex":0.00002871345,"about_ca_topic_score_gemma":0.000020378142,"teacher_disagreement_score":0.035608146,"about_ca_system_score_codex":0.00009103194,"about_ca_system_score_gemma":0.00008527383,"threshold_uncertainty_score":0.999991},"labels":[],"label_agreement":null},{"id":"W4405890436","doi":"10.1002/adma.202410703","title":"Electro‐ and Photo‐ Dual Responsive Chromatic Devices for High‐Contrast Dimmers","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Transition Metal Oxide Nanomaterials","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Young Scientists Fund; Basic and Applied Basic Research Foundation of Guangdong Province; Guangxi University; National Natural Science Foundation of China; Shandong University; State Key Laboratory of Vanadium and Titanium Resources Comprehensive Utilization","keywords":"Electrochromism; Materials science; Transmittance; Optoelectronics; Contrast (vision); High contrast; Opacity; Chromatic scale; Electrochromic devices; Optics; Contrast ratio; Photochromism; Nanotechnology; Electrode","score_opus":0.007979395375490866,"score_gpt":0.260949639553026,"score_spread":0.25297024417753516,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405890436","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919191,0.0011824679,0.0010914704,0.0004686765,0.0026722136,0.0011287115,0.0010612723,0.00042069028,0.00005540982],"genre_scores_gemma":[0.9870979,0.00010553946,0.011369381,0.00031328105,0.0002888643,0.00047887853,0.00007194793,0.00007684465,0.00019732132],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99758387,0.00020629546,0.0006772731,0.00066931726,0.00029428903,0.0005689809],"domain_scores_gemma":[0.9987861,0.000533396,0.00015614438,0.0002761471,0.00012638285,0.000121808545],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0011003453,0.00034055646,0.0006312419,0.00015356042,0.00016172096,0.00054307387,0.00016232206,0.00011862075,0.0014622966],"category_scores_gemma":[0.000245563,0.00029403577,0.00006220881,0.0001512189,0.00014477613,0.0008332627,0.00005007754,0.000042778945,0.00025627195],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00050036097,0.000017887964,4.781683e-7,0.00054410676,0.000032297306,0.000028727382,0.00014933287,0.000006562737,0.98950076,0.008437742,0.00021431335,0.00056741014],"study_design_scores_gemma":[0.00080190616,0.00026519367,0.00055783376,0.00028609458,0.000101604695,0.00006586563,0.00007872984,0.00000417001,0.98904234,0.005586767,0.002856548,0.00035295187],"about_ca_topic_score_codex":0.00003595232,"about_ca_topic_score_gemma":0.000014177389,"teacher_disagreement_score":0.01027791,"about_ca_system_score_codex":0.000085907566,"about_ca_system_score_gemma":0.00010461911,"threshold_uncertainty_score":0.9999512},"labels":[],"label_agreement":null},{"id":"W4405916438","doi":"10.1002/adma.202416916","title":"A Universal Strategy to Mitigate Microphase Separation via Cellulose Nanocrystal Hydration in Fabricating Strong, Tough, and Fatigue‐Resistant Hydrogels","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Cellulose Research Studies","field":"Materials Science","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canada Research Chairs; China Scholarship Council; Canada Foundation for Innovation","keywords":"Materials science; Self-healing hydrogels; Toughness; Ultimate tensile strength; Polymer; Nanocrystal; Polyacrylic acid; Composite material; Chemical engineering; Phase (matter); Cellulose; Nanotechnology; Polymer chemistry","score_opus":0.01919436442872462,"score_gpt":0.31900050219506915,"score_spread":0.2998061377663445,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405916438","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.978472,0.0010498494,0.018428532,0.0001546511,0.0003212295,0.00091206544,0.00018453762,0.00018212508,0.00029498752],"genre_scores_gemma":[0.9929867,0.0001025407,0.0061908616,0.000025272631,0.00009578526,0.00014844569,0.000047501424,0.000046375797,0.00035655178],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99731344,0.00021056998,0.00059825036,0.00080043287,0.00042073606,0.0006565919],"domain_scores_gemma":[0.9991338,0.00016802242,0.00012577855,0.0002804276,0.00011309734,0.00017884141],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005987543,0.00033099536,0.00042029037,0.00024453996,0.00017038995,0.00035199715,0.00018922027,0.00008166275,0.00017098682],"category_scores_gemma":[0.00013571767,0.00031691848,0.000037113965,0.00038992902,0.00014273784,0.0010412779,0.00020142474,0.00010990789,0.000086310385],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002597951,0.00003485037,0.0000033654421,0.0002075487,0.000011521013,0.00014607859,0.0006450219,0.0030431328,0.99002427,0.0011241587,0.000033737535,0.0044665504],"study_design_scores_gemma":[0.0005103735,0.00034229842,0.00003395477,0.00024051902,0.000014665921,0.000010440203,0.0003609824,0.0007756244,0.9948332,0.0015647393,0.0009703408,0.00034291734],"about_ca_topic_score_codex":0.0001734175,"about_ca_topic_score_gemma":0.00013665445,"teacher_disagreement_score":0.014514644,"about_ca_system_score_codex":0.00036620372,"about_ca_system_score_gemma":0.00011532378,"threshold_uncertainty_score":0.9999283},"labels":[],"label_agreement":null},{"id":"W4405924435","doi":"10.1002/adma.202417906","title":"ASb<sub>3</sub>Mn<sub>9</sub>O<sub>19</sub> (A = K or Rb): New Mn‐Based 2D Magnetoplumbites with Geometric and Magnetic Frustration","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Condensed Matter Physics","field":"Physics and Astronomy","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Oak Ridge National Laboratory; Office of Science; Basic Energy Sciences; University of Pittsburgh; McMaster University; U.S. Department of Energy","keywords":"Frustration; Materials science; Geometrical frustration; Crystallography; Hexagonal crystal system; Characterization (materials science); Magnet; Condensed matter physics; Nanotechnology; Chemistry; Physics","score_opus":0.008419163792263736,"score_gpt":0.228530120180672,"score_spread":0.22011095638840827,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405924435","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9698334,0.00076776533,0.025627714,0.0003070715,0.0008328894,0.0012234858,0.0006867007,0.0004262138,0.00029478985],"genre_scores_gemma":[0.9931759,0.00013122208,0.0038244138,0.00036148462,0.0010268583,0.00035007708,0.0005849354,0.00025630277,0.00028875418],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99595153,0.00014131585,0.0008989934,0.0013210725,0.00064219587,0.0010448729],"domain_scores_gemma":[0.997682,0.00041751948,0.0004104758,0.00081512897,0.00022021093,0.00045470273],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026114564,0.00090768916,0.0009284586,0.00043756014,0.00026958607,0.00070414937,0.00032154715,0.0001760978,0.00031197647],"category_scores_gemma":[0.00005781756,0.0008472674,0.00015326642,0.0012273646,0.00018569038,0.0012630586,0.00017065702,0.00033252113,0.00030561746],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027741276,0.0001044677,0.000056275785,0.0003242088,0.00008011909,0.000064450265,0.00008401765,0.00043153955,0.8672111,0.0011471582,0.00132547,0.1288938],"study_design_scores_gemma":[0.002036342,0.0006803551,0.00034999513,0.00034521558,0.00025611732,0.000025308498,0.00010312261,0.00009029383,0.97668666,0.015515681,0.002850371,0.0010605463],"about_ca_topic_score_codex":0.000037894028,"about_ca_topic_score_gemma":0.00004444272,"teacher_disagreement_score":0.12783325,"about_ca_system_score_codex":0.00015551738,"about_ca_system_score_gemma":0.0005112401,"threshold_uncertainty_score":0.9993978},"labels":[],"label_agreement":null},{"id":"W4406115561","doi":"10.1002/adma.202419306","title":"Colloid‐Forming Prodrug‐Hydrogel Composite Prolongs Lower Intraocular Pressure in Rodent Eyes after Subconjunctival Injection","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ocular Surface and Contact Lens","field":"Medicine","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University Health Network; Toronto Rehabilitation Institute; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Krembil Foundation; Glaucoma Research Foundation","keywords":"Timolol; Prodrug; Pharmacology; Drug; Intraocular pressure; Drug delivery; Glaucoma; Systemic administration; In vivo; Ophthalmology; Chemistry; Medicine; Materials science; Nanotechnology; Biology","score_opus":0.0034703722040052365,"score_gpt":0.2436233504537144,"score_spread":0.24015297824970916,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406115561","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99562216,0.00097530184,0.00019928985,0.00034897376,0.0009076318,0.0013980186,0.000015995662,0.00010090615,0.00043174604],"genre_scores_gemma":[0.9965209,0.000057785735,0.00061912485,0.00049496006,0.00007966681,0.00030635757,0.000025015886,0.000029385188,0.00186682],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99850684,0.00005487512,0.0004260801,0.00040799394,0.00025055578,0.00035365022],"domain_scores_gemma":[0.9993341,0.00002007781,0.00009657273,0.00035530564,0.00013312933,0.000060845538],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028954522,0.00023799259,0.0005075847,0.0001651114,0.000057841942,0.000044627388,0.0000805342,0.00014302571,0.000110922134],"category_scores_gemma":[0.00007342787,0.00021211157,0.00007602656,0.00023814267,0.00004042993,0.00029091942,0.00007586807,0.00014719978,0.000030167592],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0030349141,0.0002249465,0.033001292,0.00044338946,0.00012903487,0.00010501084,0.00022447803,0.00019629042,0.96075666,0.00015780203,0.000017748564,0.0017084364],"study_design_scores_gemma":[0.0024112428,0.000287311,0.03525872,0.0007299428,0.00018649868,0.000011610645,0.000075654294,0.000034366585,0.9520168,0.0003556506,0.008401661,0.00023054608],"about_ca_topic_score_codex":0.00013543341,"about_ca_topic_score_gemma":0.00008893267,"teacher_disagreement_score":0.008739864,"about_ca_system_score_codex":0.00013165422,"about_ca_system_score_gemma":0.000103396385,"threshold_uncertainty_score":0.86496586},"labels":[],"label_agreement":null},{"id":"W4406246780","doi":"10.1002/adma.202416885","title":"PO<sub>4</sub><sup>3−</sup> Tetrahedron Assisted Chelate Engineering for 10.67%‐Efficient Antimony Selenosulfide Solar Cells","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Chalcogenide Semiconductor Thin Films","field":"Engineering","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Key Research and Development Program of China; Guangxi University; National Natural Science Foundation of China; McGill University","keywords":"Materials science; Antimony; Chelation; Nucleation; Selenide; Adsorption; Chemical engineering; Nanotechnology; Physical chemistry; Metallurgy; Chemistry","score_opus":0.007034116113822502,"score_gpt":0.21040081431978758,"score_spread":0.20336669820596506,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406246780","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9843548,0.00052208634,0.009100247,0.00003442843,0.0027542005,0.0011023382,0.00036884216,0.0013177729,0.0004452762],"genre_scores_gemma":[0.9923576,0.0001876484,0.006379921,0.000059577473,0.00019487413,0.00022097607,0.00011480586,0.00021300351,0.00027155597],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99723107,0.000037801336,0.00087730505,0.0006345529,0.00028792289,0.0009313712],"domain_scores_gemma":[0.9986791,0.00021186812,0.000117642594,0.00066495064,0.00017349944,0.00015293962],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00045853277,0.00061062636,0.0007492886,0.00035491443,0.00012208775,0.00014115004,0.00040223694,0.0003151625,0.00013450942],"category_scores_gemma":[0.00023028105,0.0006877069,0.00018966527,0.00043941985,0.000040365085,0.00026506511,0.00011893208,0.00020479137,0.0001697364],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046445104,0.000030718944,0.000001523421,0.0005023778,0.00012192339,0.0000085540305,0.00009563941,0.26547676,0.73096186,0.000052405256,0.0009478843,0.0017538712],"study_design_scores_gemma":[0.0011966092,0.000042493146,0.00009052237,0.0002886979,0.000098338314,0.000010346582,0.000049169445,0.015501677,0.97326225,0.00006730635,0.008753898,0.00063871365],"about_ca_topic_score_codex":0.000005930904,"about_ca_topic_score_gemma":0.0000017589248,"teacher_disagreement_score":0.24997509,"about_ca_system_score_codex":0.00029407992,"about_ca_system_score_gemma":0.000054184435,"threshold_uncertainty_score":0.99955744},"labels":[],"label_agreement":null},{"id":"W4406247075","doi":"10.1002/adma.202416665","title":"Prussian Blue Analogues “Dressed” in MXene Nanosheets Tightly for High Performance Lithium‐Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Yangzhou University; National Natural Science Foundation of China","keywords":"MXenes; Materials science; Anode; Prussian blue; Lithium (medication); Stacking; Chemical engineering; Porosity; Ion; Nanotechnology; Battery (electricity); Conductivity; Electrode; Electrochemistry; Composite material; Organic chemistry; Chemistry","score_opus":0.011032624381541793,"score_gpt":0.2668312854141004,"score_spread":0.2557986610325586,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406247075","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99165934,0.00016242376,0.00061311934,0.0006084905,0.0045113065,0.0011050102,0.00047056124,0.00021526945,0.00065449235],"genre_scores_gemma":[0.99103737,0.00021708047,0.0054496713,0.00065482914,0.00027190166,0.00081287825,0.00019213308,0.000048044254,0.0013161136],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970308,0.0001779499,0.001002262,0.00074702693,0.000279527,0.0007624483],"domain_scores_gemma":[0.9986394,0.00015012587,0.000314555,0.000638026,0.00017371833,0.00008416449],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0010524989,0.0004247659,0.0008538147,0.00029419406,0.0002490424,0.00030030616,0.00050746213,0.0001984782,0.00085067324],"category_scores_gemma":[0.00022207227,0.0003750734,0.00005565735,0.0002807415,0.00014313111,0.00085744105,0.00020398121,0.00006253317,0.0001283644],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006513816,0.000094440686,0.000050563627,0.000614051,0.000012212747,0.000008211262,0.00018237294,0.00011758306,0.9910367,0.0050688693,0.000960293,0.0012033015],"study_design_scores_gemma":[0.0015851617,0.00020269545,0.0027100127,0.00045189325,0.000029371557,0.0000037247646,0.000058489757,0.000004757872,0.9753771,0.0035652881,0.01560664,0.00040487477],"about_ca_topic_score_codex":0.00015899235,"about_ca_topic_score_gemma":0.0000830729,"teacher_disagreement_score":0.015659628,"about_ca_system_score_codex":0.00013495007,"about_ca_system_score_gemma":0.00015359909,"threshold_uncertainty_score":0.9998701},"labels":[],"label_agreement":null},{"id":"W4406271895","doi":"10.1002/adma.202410106","title":"Multiscale Understanding of Anion Exchange Membrane Fuel Cells: Mechanisms, Electrocatalysts, Polymers, and Cell Management","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"École de Technologie Supérieure; Institut National de la Recherche Scientifique","funders":"Fonds de recherche du Québec – Nature et technologies; Centre québécois sur les matériaux fonctionnels; Natural Sciences and Engineering Research Council of Canada; École de technologie supérieure; Institut national de la recherche scientifique","keywords":"Proton exchange membrane fuel cell; Materials science; Membrane; Fuel cells; Anode; Ion exchange; Electrochemistry; Polymer; Nanotechnology; Chemical engineering; Ion; Chemistry; Electrode; Engineering; Organic chemistry; Composite material","score_opus":0.015812947869490657,"score_gpt":0.2536828990281895,"score_spread":0.23786995115869886,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406271895","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000013534489,0.98891485,0.00237921,0.0000074255154,0.0009227414,0.0009798306,0.00007185559,0.00016298234,0.0065475875],"genre_scores_gemma":[0.0010117551,0.99144113,0.002430866,0.000024874671,0.00006088875,0.00017282521,0.0007504102,0.00013923917,0.003968003],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965912,0.00025155206,0.0010188305,0.00093119877,0.0005281105,0.0006791071],"domain_scores_gemma":[0.99804956,0.00016726642,0.0008278836,0.00076912047,0.00006808829,0.00011808228],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00049518526,0.0007907605,0.0022417796,0.0006543145,0.00012489273,0.000050928193,0.00048943417,0.00042946017,0.00024701012],"category_scores_gemma":[0.000018894796,0.0007512661,0.00026689947,0.00055698986,0.000070284696,0.00023292199,0.0004107769,0.00016723754,0.000027553093],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001271028,0.00014410166,1.1151187e-8,0.231211,0.00060068554,0.00006140479,0.00008654282,0.000011676792,0.39082032,0.055566944,0.0002011066,0.3211691],"study_design_scores_gemma":[0.0008453972,0.00012304273,2.2026637e-8,0.008424046,0.0015191885,0.000012300119,0.0000927975,0.0000010911359,0.60915065,0.0020527085,0.3770783,0.0007004367],"about_ca_topic_score_codex":0.00022907974,"about_ca_topic_score_gemma":0.00010053577,"teacher_disagreement_score":0.3768772,"about_ca_system_score_codex":0.0007730748,"about_ca_system_score_gemma":0.00010514324,"threshold_uncertainty_score":0.99949384},"labels":[],"label_agreement":null},{"id":"W4406482201","doi":"10.1002/adma.202417434","title":"Shear‐Mediated Stabilization of Spin Spiral Order in Multiferroic NiI <sub>2</sub>","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Multiferroics and related materials","field":"Materials Science","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada)","funders":"Natural Sciences and Engineering Research Council of Canada; Brookhaven National Laboratory; Canadian Institutes of Health Research; U.S. Department of Energy; Division of Materials Research; Office of Science; Canadian Light Source; National Science Foundation","keywords":"Materials science; Multiferroics; Condensed matter physics; Spiral (railway); Shear (geology); Order (exchange); Spin (aerodynamics); Nanotechnology; Ferroelectricity; Composite material; Thermodynamics; Physics; Mechanical engineering; Optoelectronics","score_opus":0.008810408035673137,"score_gpt":0.27017659006491435,"score_spread":0.2613661820292412,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406482201","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948031,0.00020756217,0.0005863811,0.000115361596,0.002726556,0.00090051704,0.00018645453,0.00014185146,0.00033222645],"genre_scores_gemma":[0.9966647,0.00026808545,0.002538715,0.00014175472,0.00005307831,0.00011324111,0.00010502322,0.000044395405,0.00007102614],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9968536,0.0002676375,0.001340446,0.000608472,0.00036463927,0.000565245],"domain_scores_gemma":[0.9984619,0.0001484735,0.00041516565,0.0005318368,0.00036173224,0.00008087196],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011194694,0.00034494768,0.0008040155,0.00035387347,0.000088043205,0.00008252442,0.00033819565,0.00029632996,0.00067885825],"category_scores_gemma":[0.00091703323,0.00031152906,0.00005654033,0.00064857915,0.00016935648,0.0003676384,0.00018820073,0.000099188896,0.0001633178],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028610037,0.0001712492,0.00014590973,0.00031302965,0.000011221732,0.0000082201,0.00014750691,0.001954562,0.99539965,0.00085387577,0.00006615388,0.0006425084],"study_design_scores_gemma":[0.0018664504,0.00007843498,0.0025347825,0.00037466583,0.000022846292,0.0000018631849,0.00007170402,0.00012570845,0.99305093,0.0011847956,0.00038715109,0.00030065258],"about_ca_topic_score_codex":0.00014556767,"about_ca_topic_score_gemma":0.000072126524,"teacher_disagreement_score":0.0026734779,"about_ca_system_score_codex":0.00014056689,"about_ca_system_score_gemma":0.00019684431,"threshold_uncertainty_score":0.99993366},"labels":[],"label_agreement":null},{"id":"W4406543206","doi":"10.1002/adma.202412607","title":"Lanmodulin‐Decorated Microbes for Efficient Lanthanide Recovery","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Extraction and Separation Processes","field":"Engineering","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Environmental Health Sciences; Canadian Institute for Advanced Research; United States Golf Association; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Materials science; Lanthanide; Nanotechnology; Organic chemistry; Chemistry","score_opus":0.006277745537607364,"score_gpt":0.25671173030470285,"score_spread":0.2504339847670955,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406543206","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.88214386,0.00060610386,0.1011981,0.00015448031,0.0044600344,0.00054952485,0.00021314509,0.00079779804,0.009876955],"genre_scores_gemma":[0.9894083,0.00024257296,0.0057928176,0.00024662257,0.000069479225,0.00014960943,0.000105141524,0.000024921455,0.0039604935],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999501,0.000008098429,0.0002025552,0.000116216775,0.000041197636,0.00013093455],"domain_scores_gemma":[0.99968237,0.000060938757,0.000027846056,0.00009894841,0.00011125724,0.00001862812],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009121222,0.00009226199,0.0001442487,0.0000615192,0.00004729688,0.000047622227,0.00005829218,0.000047271184,0.000118730226],"category_scores_gemma":[0.00009723475,0.00009120392,0.000019415364,0.00011996967,0.0000076040888,0.0000854083,0.0000074170334,0.00002244172,0.00005189194],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004696556,0.0000117157715,0.0000014595164,0.0001520982,0.000015703054,4.1717496e-7,0.0000142542485,0.046251178,0.9456347,0.0006904979,0.006024428,0.0011565863],"study_design_scores_gemma":[0.00029237402,0.000012052445,0.000038853635,0.000038553095,0.000007691951,8.9657135e-7,0.000021931397,0.0005861829,0.8942424,0.00078237243,0.10388391,0.000092795686],"about_ca_topic_score_codex":0.0000018293371,"about_ca_topic_score_gemma":0.0000076071915,"teacher_disagreement_score":0.10726448,"about_ca_system_score_codex":0.000036367568,"about_ca_system_score_gemma":0.000021110807,"threshold_uncertainty_score":0.37191877},"labels":[],"label_agreement":null},{"id":"W4406766588","doi":"10.1002/adma.202418344","title":"Nano‐Metal–Organic Frameworks Isolated in Mesoporous Structures","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Priority Academic Program Development of Jiangsu Higher Education Institutions; National Natural Science Foundation of China","keywords":"Materials science; Mesoporous material; Metal-organic framework; Dispersity; Nanoparticle; Nanotechnology; Carbonization; Chemical engineering; Nanocomposite; Adsorption; Carbon fibers; Nanostructure; Electrochemistry; Composite number; Electrode; Organic chemistry; Polymer chemistry; Catalysis; Composite material; Chemistry; Physical chemistry","score_opus":0.006099205763676713,"score_gpt":0.2514861557259534,"score_spread":0.2453869499622767,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406766588","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98830175,0.0010982297,0.0035172668,0.0005710886,0.00055355707,0.0002429173,0.00006483555,0.00024141825,0.0054089427],"genre_scores_gemma":[0.9931941,0.00024965242,0.004098787,0.00040058297,0.000091555514,0.000120479395,0.00004662594,0.000047228154,0.0017510063],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99822617,0.000042740212,0.00064675574,0.00050627656,0.00018451751,0.0003935256],"domain_scores_gemma":[0.99868757,0.00019586533,0.00019805144,0.00078447943,0.00007301737,0.000061031504],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002069536,0.0002871922,0.00052801525,0.00009880369,0.00010948242,0.00008945004,0.000419302,0.00060287473,0.012046854],"category_scores_gemma":[0.00049481174,0.00026985302,0.000065471344,0.00040162317,0.000064356514,0.00012717802,0.00012981544,0.00036678446,0.00008376976],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000041633637,0.000059417318,0.00003720685,0.00009059195,0.000043376218,0.000004264995,0.000047015772,0.000028241853,0.982435,0.011550142,0.00021703677,0.0054461095],"study_design_scores_gemma":[0.00036141148,0.0000063859557,0.00022048758,0.0001908175,0.000037997444,0.0000041311982,0.00009690979,0.000011600055,0.94525015,0.045401394,0.00816867,0.00025006582],"about_ca_topic_score_codex":0.000025526495,"about_ca_topic_score_gemma":0.000018932298,"teacher_disagreement_score":0.037184834,"about_ca_system_score_codex":0.00011057883,"about_ca_system_score_gemma":0.000069154215,"threshold_uncertainty_score":0.9999754},"labels":[],"label_agreement":null},{"id":"W4406767072","doi":"10.1002/adma.202414317","title":"Interfacial Atomic Mechanisms of Single‐Crystalline MoS<sub>2</sub> Epitaxy on Sapphire","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"2D Materials and Applications","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada; Natural Science Foundation of Guangdong Province; Canada Foundation for Innovation; National Natural Science Foundation of China; Westlake University; National Supercomputer Centre in Guangzhou","keywords":"Epitaxy; Sapphire; Materials science; Monolayer; Atomic units; Nanotechnology; Wafer; Chemical physics; Substrate (aquarium); Molybdenum disulfide; Optoelectronics; Crystallography; Layer (electronics); Chemistry; Optics; Metallurgy","score_opus":0.009167065532398953,"score_gpt":0.2475159522147788,"score_spread":0.23834888668237983,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406767072","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98396313,0.000034814148,0.012190366,0.00028468613,0.0015356127,0.00062684686,0.00052683486,0.0001978725,0.0006398585],"genre_scores_gemma":[0.99530643,0.000042276628,0.0038691105,0.00029768745,0.000108315086,0.00018624785,0.000047273512,0.000039900326,0.0001027323],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977496,0.00010908769,0.000855473,0.0005659348,0.0002960741,0.00042382357],"domain_scores_gemma":[0.99863034,0.000098803735,0.00039761412,0.0006181477,0.00017906916,0.000076003176],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00051154237,0.000321697,0.000643451,0.00013850017,0.00014770601,0.000105275234,0.00044883706,0.00014569581,0.0004699758],"category_scores_gemma":[0.00015344357,0.00029736792,0.000078779085,0.00021252784,0.00013743345,0.00021480366,0.0002130182,0.000055205484,0.0002635367],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002749554,0.00017494052,4.5575408e-7,0.00011765284,0.000011970764,0.0000023216692,0.000036904057,0.00012397645,0.9377649,0.0601798,0.0001999516,0.0011121695],"study_design_scores_gemma":[0.00062481104,0.00016757847,0.00004382945,0.00021905532,0.000030852836,0.0000023390228,0.000044306216,0.0000034875177,0.94068485,0.056909982,0.0010241143,0.00024477852],"about_ca_topic_score_codex":0.000017238104,"about_ca_topic_score_gemma":0.0000109629955,"teacher_disagreement_score":0.011343349,"about_ca_system_score_codex":0.00011917642,"about_ca_system_score_gemma":0.00007755598,"threshold_uncertainty_score":0.99994785},"labels":[],"label_agreement":null},{"id":"W4406767568","doi":"10.1002/adma.202410651","title":"Ultrahigh Specific Strength by Bayesian Optimization of Carbon Nanolattices","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer composites and self-healing","field":"Materials Science","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Metamaterial; Carbon fibers; Bayesian optimization; Composite material; Ultimate tensile strength; Graphene; Nanotechnology; Optoelectronics; Computer science","score_opus":0.00510957183691966,"score_gpt":0.23278408668285838,"score_spread":0.22767451484593873,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406767568","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98338705,0.0015325198,0.011028391,0.00009829745,0.0014542298,0.00022043557,0.00013212828,0.00011185081,0.0020351028],"genre_scores_gemma":[0.9794626,0.00029629096,0.019880747,0.00005397232,0.00004745025,0.000016303267,0.000038979706,0.000016636754,0.00018700366],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986584,0.000084538246,0.00048493934,0.00030937893,0.00019164936,0.00027109962],"domain_scores_gemma":[0.99926,0.00008397427,0.00022736039,0.00030505995,0.00007871247,0.000044905883],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022720834,0.00016351602,0.0003378379,0.00007799969,0.000082398765,0.00007532269,0.00024382147,0.00007148341,0.00036435723],"category_scores_gemma":[0.00003093479,0.00015327589,0.000030510468,0.0001672545,0.000057486486,0.00018969126,0.00005200241,0.000031633248,0.0000049520154],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000072116265,0.00004546411,0.000026750098,0.00007239282,0.0000075272637,8.9704923e-7,0.00004767544,0.0042923996,0.99423796,0.00072766544,0.00007038395,0.00039876468],"study_design_scores_gemma":[0.0003767824,0.000042085558,0.000028685065,0.00010027248,0.000017358647,8.155644e-7,0.00004033011,0.00034833697,0.99766296,0.00022154373,0.0010196345,0.00014117101],"about_ca_topic_score_codex":0.00008993548,"about_ca_topic_score_gemma":0.0000037271245,"teacher_disagreement_score":0.008852355,"about_ca_system_score_codex":0.000041310614,"about_ca_system_score_gemma":0.000035378805,"threshold_uncertainty_score":0.62504095},"labels":[],"label_agreement":null},{"id":"W4406931339","doi":"10.1002/adma.202570029","title":"Oxychloride Polyanion Clustered Solid‐State Electrolytes via Hydrate‐Assisted Synthesis for All‐Solid‐State Batteries (Adv. Mater. 4/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polyoxometalates: Synthesis and Applications","field":"Materials Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Materials science; Solid-state; Hydrate; Electrolyte; Chemical engineering; Fast ion conductor; Nanotechnology; Inorganic chemistry; Organic chemistry; Electrode; Engineering physics; Physical chemistry","score_opus":0.013387578484838816,"score_gpt":0.2935995359204021,"score_spread":0.2802119574355633,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406931339","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9740889,0.0002580107,0.01811281,0.0016882934,0.0016503042,0.0017665593,0.0012941738,0.00063056557,0.00051037717],"genre_scores_gemma":[0.9846679,0.0003710239,0.007538032,0.00094204134,0.00015572965,0.0029107481,0.00012324397,0.00013475517,0.0031565386],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99517566,0.00024838414,0.0015310103,0.0012119068,0.0004182281,0.0014148265],"domain_scores_gemma":[0.9969657,0.00074707984,0.0006805681,0.0010952685,0.0002983826,0.0002130035],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011075222,0.00075589406,0.0013060737,0.00034087716,0.0005995064,0.00065365096,0.0008741693,0.0001900698,0.00085574645],"category_scores_gemma":[0.00043683947,0.00069278164,0.00023715697,0.00043352533,0.0002520863,0.000826933,0.000284458,0.00010539329,0.0004449279],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007026282,0.00015232118,0.000013847318,0.00027049083,0.000121294215,0.000004546108,0.000107194704,0.00012038195,0.9918229,0.0004734801,0.0006284831,0.00558242],"study_design_scores_gemma":[0.0007354452,0.000112478905,0.0008325905,0.0002580271,0.00017193214,0.000010884632,0.000046242483,0.00009289303,0.97869784,0.010579535,0.0077628205,0.000699316],"about_ca_topic_score_codex":0.00010152485,"about_ca_topic_score_gemma":0.000040412997,"teacher_disagreement_score":0.013125077,"about_ca_system_score_codex":0.00024347863,"about_ca_system_score_gemma":0.0001508105,"threshold_uncertainty_score":0.9995523},"labels":[],"label_agreement":null},{"id":"W4407349216","doi":"10.1002/adma.202418300","title":"Atomic Layer Deposition Stabilizes Nanocrystals, Enabling Reliably High‐Performance Quantum Dot LEDs","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Australian Research Council; Samsung; University of Toronto; Australian Synchrotron; Australian Nuclear Science and Technology Organisation","keywords":"Materials science; Passivation; Light-emitting diode; Quantum dot; Optoelectronics; Nanocrystal; Atomic layer deposition; Quantum efficiency; Deposition (geology); Diode; Layer (electronics); Nanotechnology","score_opus":0.013772810623341762,"score_gpt":0.24391590917500486,"score_spread":0.2301430985516631,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407349216","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940019,0.0012666989,0.00036423813,0.0002555978,0.0027493224,0.00043216127,0.00008192081,0.00032419583,0.0005239477],"genre_scores_gemma":[0.9952317,0.0010262924,0.0024699331,0.00029112096,0.00013199756,0.00016536932,0.000021098209,0.000045531808,0.0006169956],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99742633,0.00021502818,0.0007833808,0.0006057321,0.00035709818,0.00061243935],"domain_scores_gemma":[0.9987117,0.0001567506,0.0002571827,0.0006029072,0.00020096595,0.00007051731],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0010031722,0.00034796604,0.00059243094,0.0001544317,0.0004213256,0.0003138592,0.0004021113,0.00014347787,0.0010538963],"category_scores_gemma":[0.00020994253,0.00028081384,0.000059640774,0.0002181462,0.00013876586,0.00089529785,0.00017420811,0.000081513324,0.0003527098],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044437806,0.000051088067,0.00003914622,0.00031466005,0.000012593843,0.0000038572744,0.000080048536,0.0002448984,0.9917751,0.005211771,0.00023756443,0.00158487],"study_design_scores_gemma":[0.0005527225,0.00011639704,0.00041762184,0.0004738138,0.000036339043,0.0000061863484,0.00010352522,0.000058812995,0.98871875,0.002749042,0.0064072334,0.00035957055],"about_ca_topic_score_codex":0.0001987621,"about_ca_topic_score_gemma":0.000014673147,"teacher_disagreement_score":0.006169669,"about_ca_system_score_codex":0.0001586894,"about_ca_system_score_gemma":0.00013050348,"threshold_uncertainty_score":0.9999644},"labels":[],"label_agreement":null},{"id":"W4407420905","doi":"10.1002/adma.202420273","title":"Control Over Metal‐Halide Reactivity Enables Uniform Growth of InSb Colloidal Quantum Dots for Enhanced SWIR Light Detection","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Oleylamine; Reactivity (psychology); Halide; Quantum dot; Passivation; Nucleation; Oxide; Photodiode; Quantum efficiency; Ligand (biochemistry); Colloid; Photochemistry; Optoelectronics; Nanotechnology; Inorganic chemistry; Layer (electronics); Nanoparticle; Chemistry; Physical chemistry; Organic chemistry","score_opus":0.008596845490568446,"score_gpt":0.24435655780870916,"score_spread":0.23575971231814072,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407420905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98639673,0.0002518129,0.009433469,0.0001619196,0.001732165,0.0010746672,0.00030900503,0.00012469072,0.000515569],"genre_scores_gemma":[0.99804837,0.00009094928,0.00086376985,0.00012150359,0.00009211982,0.00046683388,0.0000075111793,0.00003315249,0.00027580297],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997773,0.0001932908,0.000758555,0.00048692836,0.00028849207,0.00049971644],"domain_scores_gemma":[0.9982594,0.00038379768,0.00048694195,0.00040670694,0.00040494872,0.000058173377],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0012873907,0.0003098925,0.0008469607,0.0001578478,0.00026951134,0.00010717171,0.00029345488,0.0001530247,0.00023444984],"category_scores_gemma":[0.0010046582,0.0002448958,0.00013064888,0.00019066878,0.00011245366,0.0007150361,0.00008139075,0.00005192878,0.000020270625],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018456014,0.00009988332,0.000007339991,0.00039250203,0.000044516517,7.55252e-7,0.00009642773,0.000025667669,0.9899997,0.006514295,0.0000443165,0.0009289708],"study_design_scores_gemma":[0.0014667899,0.00024342693,0.00023241865,0.00015624207,0.00009620798,0.0000014462745,0.00008489222,0.000023508312,0.9844817,0.008965009,0.003975616,0.00027272297],"about_ca_topic_score_codex":0.00034266833,"about_ca_topic_score_gemma":0.00013483547,"teacher_disagreement_score":0.011651655,"about_ca_system_score_codex":0.00013299084,"about_ca_system_score_gemma":0.0001259263,"threshold_uncertainty_score":0.99865615},"labels":[],"label_agreement":null},{"id":"W4407421619","doi":"10.1002/adma.202408616","title":"Dynamic and Reversible Tuning of Hydrogel Viscoelasticity by Transient Polymer Interactions for Controlling Cell Adhesion","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Cellular Mechanics and Interactions","field":"Biochemistry, Genetics and Molecular Biology","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Bundesministerium für Bildung und Forschung; Volkswagen Foundation; H2020 European Research Council; Deutsche Forschungsgemeinschaft","keywords":"Self-healing hydrogels; Viscoelasticity; Materials science; Mechanobiology; Adhesion; Polymer; Mechanotransduction; Ethylene glycol; Nanotechnology; Cell adhesion; PEG ratio; Tissue engineering; Biophysics; Chemical engineering; Biomedical engineering; Polymer chemistry; Composite material; Cell biology","score_opus":0.004091642218710006,"score_gpt":0.2500082475116188,"score_spread":0.24591660529290882,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407421619","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.88196796,0.00091686286,0.11604818,0.00006323709,0.00041140805,0.0002286403,0.00017124951,0.0000058641235,0.00018658282],"genre_scores_gemma":[0.997024,0.0002560144,0.0012484071,0.00007209439,0.000011740528,0.00003373268,0.00013127444,0.000010321546,0.0012123958],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9994464,0.000015397241,0.0002023808,0.00018679835,0.000037832433,0.00011121014],"domain_scores_gemma":[0.99967617,0.000028503531,0.00008707146,0.00011783901,0.00006596079,0.00002447248],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007840124,0.00008767064,0.00014827438,0.00003791274,0.00007141562,0.00001200146,0.000049168615,0.00004752832,0.000021373417],"category_scores_gemma":[0.000038896575,0.00008892343,0.000046764184,0.00003147606,0.000016927364,0.000007868739,0.000029178236,0.000026282203,5.045155e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020296333,0.000042508087,0.0000014855095,0.000057021534,0.000024726703,9.2577224e-8,0.000012431174,0.000034531975,0.9989649,0.00014980834,0.000216654,0.0002928642],"study_design_scores_gemma":[0.00074184407,0.00013230507,0.0000029610308,0.00005645998,0.000040900897,0.0000010980951,0.00006971699,0.0005387284,0.98736864,0.00012501358,0.010845498,0.00007684113],"about_ca_topic_score_codex":0.0000126861705,"about_ca_topic_score_gemma":0.0000091303245,"teacher_disagreement_score":0.11505604,"about_ca_system_score_codex":0.000013052567,"about_ca_system_score_gemma":0.00001742591,"threshold_uncertainty_score":0.36261922},"labels":[],"label_agreement":null},{"id":"W4407549587","doi":"10.1002/adma.202417742","title":"Crossing the Dimensional Divide with Optoelectronic Tweezers: Multicomponent Light‐Driven Micromachines with Motion Transfer in Three Dimensions","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Orbital Angular Momentum in Optics","field":"Physics and Astronomy","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Key Research and Development Program of China; Southern University of Science and Technology; Natural Science Foundation of Chongqing; Natural Science Foundation of Beijing Municipality; Sun Yat-sen University; Southeast University; National Natural Science Foundation of China","keywords":"Microscale chemistry; Microsystem; Materials science; Nanotechnology; Tweezers; Optical tweezers; Levitation; Engineering; Mechanical engineering; Physics; Optics; Electrical engineering","score_opus":0.00454610312189039,"score_gpt":0.22748132195147627,"score_spread":0.2229352188295859,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407549587","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9901272,0.00009314237,0.008270362,0.0006376552,0.00015258045,0.0005038226,0.00003339012,0.00003180382,0.00015006025],"genre_scores_gemma":[0.9975924,0.0000017133694,0.0020422796,0.000057349498,0.00004982714,0.000093890565,0.000041207615,0.000025038173,0.00009630969],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99889374,0.00005177532,0.0002550851,0.0002894901,0.00017528156,0.00033465266],"domain_scores_gemma":[0.9995252,0.0000669956,0.000053376927,0.00026201256,0.000059738915,0.000032678177],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011252812,0.00022610028,0.00025924356,0.000060631173,0.00026920036,0.00013427905,0.000141215,0.00002748269,0.00005862749],"category_scores_gemma":[0.0000031886843,0.00013260706,0.000037663012,0.00016119091,0.000120959754,0.0001914182,0.00006016792,0.000116533905,0.000007818662],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022333897,0.00019527721,0.005671394,0.000022107504,0.00009817561,0.000004359607,0.00020415378,0.005945559,0.9768524,0.0100589255,0.0000056557615,0.0007186415],"study_design_scores_gemma":[0.0027311593,0.00018396165,0.018803826,0.000454928,0.000108027045,0.0000037665127,0.00012543277,0.000273941,0.9671918,0.009259606,0.00048517846,0.000378344],"about_ca_topic_score_codex":0.00014679681,"about_ca_topic_score_gemma":0.00013381014,"teacher_disagreement_score":0.013132432,"about_ca_system_score_codex":0.00007296104,"about_ca_system_score_gemma":0.00007397025,"threshold_uncertainty_score":0.5407559},"labels":[],"label_agreement":null},{"id":"W4407584013","doi":"10.1002/adma.202416427","title":"A Universal Thick Anode for Aqueous and Seawater Energy Storage Devices","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canada Research Chairs; Canada First Research Excellence Fund; University of Alberta; Canadian Light Source","keywords":"Anode; Materials science; Seawater; Cathode; Aqueous solution; Energy storage; Electrolyte; Chemical engineering; Supercapacitor; Power density; Electrode; Nanotechnology; Electrochemistry; Electrical engineering; Organic chemistry; Chemistry","score_opus":0.00763026153328382,"score_gpt":0.25289963575760194,"score_spread":0.2452693742243181,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407584013","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8491865,0.0013567745,0.14449587,0.00041543326,0.0007638453,0.0005255509,0.00012056819,0.0014186755,0.0017167885],"genre_scores_gemma":[0.9883872,0.00040653537,0.010105181,0.00012529235,0.000026375745,0.00013161468,0.000018440722,0.000036431076,0.00076288305],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991551,0.000017030261,0.00016715255,0.0002300532,0.00008788297,0.00034280057],"domain_scores_gemma":[0.9995317,0.00010632303,0.000022368351,0.00024881188,0.00005935138,0.00003146903],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000089787834,0.00016361746,0.00023266343,0.00014112788,0.00007113733,0.000050507453,0.00019149306,0.00011135349,0.000027402597],"category_scores_gemma":[0.000059431768,0.00015619044,0.000019246656,0.000117628515,0.00007010177,0.00024395138,0.00012720923,0.00006051194,0.0000040787677],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010136044,0.000010217751,0.000029133627,0.00036449343,0.000057555797,0.000017038758,0.000035028042,0.004766025,0.94723046,0.005536852,0.0008831724,0.040968634],"study_design_scores_gemma":[0.00062659796,0.000049986887,0.00007317141,0.00006564026,0.000011409788,0.000004100206,0.00010335857,0.00083418546,0.8731343,0.010759609,0.11411819,0.00021941612],"about_ca_topic_score_codex":0.00001357493,"about_ca_topic_score_gemma":0.000023728047,"teacher_disagreement_score":0.13920076,"about_ca_system_score_codex":0.00011214819,"about_ca_system_score_gemma":0.000015997124,"threshold_uncertainty_score":0.6369261},"labels":[],"label_agreement":null},{"id":"W4407808326","doi":"10.1002/adma.202418451","title":"Industrial‐current Ammonia Synthesis by Polarized Cuprous Cyanamide Coupled to Valorization of Glycerol at 4,000 mA cm<sup>−2</sup>","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ammonia Synthesis and Nitrogen Reduction","field":"Chemical Engineering","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Program of Shanghai Academic Research Leader; Fundamental Research Funds for the Central Universities; Vetenskapsrådet; Science and Technology Commission of Shanghai Municipality; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Electrolysis; Materials science; Electrochemistry; Anode; Ammonia production; Dissociation (chemistry); Faraday efficiency; Chemical engineering; Electrode; Ammonia; Physical chemistry; Chemistry; Organic chemistry","score_opus":0.011002486546135202,"score_gpt":0.24218420680448327,"score_spread":0.23118172025834807,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407808326","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9889484,0.00035084912,0.008341037,0.00023166255,0.000741809,0.0007329562,0.0003900344,0.00019143181,0.000071794086],"genre_scores_gemma":[0.99682724,0.00011449633,0.0019449679,0.00003948398,0.00015881656,0.00029728963,0.00009784037,0.00006390753,0.00045593473],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978129,0.000089280154,0.0008341501,0.00048702574,0.0003484402,0.00042815282],"domain_scores_gemma":[0.9987814,0.00022827853,0.00025946271,0.00045007147,0.00015265007,0.00012814518],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003183964,0.00034192458,0.0007364586,0.00017503713,0.00010979686,0.000040545852,0.00026159483,0.00022540196,0.00041620753],"category_scores_gemma":[0.00093555707,0.0003372386,0.00010729849,0.00038291654,0.00004304064,0.000178613,0.00014120767,0.00011085817,0.000058384638],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00081803376,0.00009320032,0.000069620706,0.00013164575,0.00009419356,9.335232e-7,0.00007897023,0.0021028793,0.98752815,0.00022922506,0.0003503725,0.00850279],"study_design_scores_gemma":[0.00090475497,0.00003753945,0.000043741788,0.00028766302,0.00013641952,0.0000017607902,0.000042140226,0.0009268364,0.9885866,0.00007906699,0.008661021,0.00029243738],"about_ca_topic_score_codex":0.00023575175,"about_ca_topic_score_gemma":0.000003535555,"teacher_disagreement_score":0.008310649,"about_ca_system_score_codex":0.00041376054,"about_ca_system_score_gemma":0.000049800605,"threshold_uncertainty_score":0.999908},"labels":[],"label_agreement":null},{"id":"W4407908152","doi":"10.1002/adma.202414154","title":"An Integrated Virtual Screening Platform to Identify Potent Co‐Assembled Nanodrugs for Cancer Treatment","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanoparticle-Based Drug Delivery","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Artificial Intelligence in Medicine (Canada)","funders":"Key Research and Development Program of Zhejiang Province; Science and Technology Department of Zhejiang Province; National Key Research and Development Program of China; Zhejiang University; National Natural Science Foundation of China","keywords":"Materials science; Nanotechnology; Cancer; Medicine","score_opus":0.024661277267728085,"score_gpt":0.3507336154570585,"score_spread":0.3260723381893304,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407908152","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.973709,0.00008892123,0.020893263,0.00030954383,0.002105587,0.0016682836,0.0008388457,0.0003353923,0.000051147574],"genre_scores_gemma":[0.9822263,0.000033767985,0.014835868,0.00060338713,0.00014526305,0.0014595973,0.00011153106,0.000054874814,0.0005293708],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99733204,0.000107991735,0.00071407564,0.0007763797,0.00033300702,0.0007365324],"domain_scores_gemma":[0.998433,0.00017624095,0.00020296671,0.0006146287,0.00034913226,0.00022402855],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00069177983,0.00040089624,0.00063325866,0.0002195587,0.00030540655,0.00033799445,0.00043349442,0.00011486183,0.00043276],"category_scores_gemma":[0.00015262012,0.0003433038,0.00008912267,0.0003100505,0.000047962738,0.0007546282,0.00007984535,0.00004066578,0.00016464833],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015847798,0.00017753778,0.000026081643,0.000035133595,0.00003693303,0.000007672937,0.00020548787,0.0048844395,0.97167236,0.00058734784,0.00034733405,0.020434905],"study_design_scores_gemma":[0.0023814307,0.000538675,0.00024628243,0.0001960216,0.000079240446,0.0000016205869,0.00043351346,0.000112803296,0.98779464,0.0002683798,0.007578103,0.0003692809],"about_ca_topic_score_codex":0.00064133824,"about_ca_topic_score_gemma":0.00022601728,"teacher_disagreement_score":0.020065622,"about_ca_system_score_codex":0.00063152256,"about_ca_system_score_gemma":0.00028200398,"threshold_uncertainty_score":0.9999019},"labels":[],"label_agreement":null},{"id":"W4407929580","doi":"10.1002/adma.202570067","title":"Two‐dimensional Nanosheets by Liquid Metal Exfoliation (Adv. Mater. 8/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanomaterials and Printing Technologies","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Materials science; Exfoliation joint; Metal; Nanotechnology; Graphene; Polymer science; Composite material; Metallurgy","score_opus":0.005813238575823224,"score_gpt":0.2386516359023601,"score_spread":0.23283839732653688,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407929580","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99245083,0.0006380705,0.00029106167,0.00013761033,0.0031213905,0.00024602516,0.000109711764,0.0015127544,0.0014925514],"genre_scores_gemma":[0.99422944,0.00013992604,0.0048682503,0.00009739327,0.000051796782,0.00009838567,0.000075028234,0.000037291113,0.0004025135],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99879277,0.000034671022,0.00042403123,0.00026153345,0.00014776071,0.0003392411],"domain_scores_gemma":[0.99949133,0.00003888141,0.000055816578,0.00032795576,0.00005597842,0.000030028625],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024105348,0.000245334,0.0003601582,0.00011456944,0.00008115933,0.000080206075,0.00022958928,0.00013044853,0.00030145008],"category_scores_gemma":[0.00007692511,0.00023563033,0.00004186145,0.00014749536,0.000038407292,0.00023062197,0.00013855893,0.000054489534,0.00012105592],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000060479102,0.0000129307555,0.0000040656573,0.00009593678,0.000040035018,0.0000030932404,0.000008378945,0.0017198224,0.99227417,0.0020758288,0.0028422899,0.0008629694],"study_design_scores_gemma":[0.0004494607,0.000038209466,0.00006742968,0.000083340994,0.000021025262,0.0000024621966,0.000007641863,0.00003950418,0.9871656,0.0024293577,0.009466043,0.00022996016],"about_ca_topic_score_codex":0.00001866207,"about_ca_topic_score_gemma":0.0000018044657,"teacher_disagreement_score":0.006623753,"about_ca_system_score_codex":0.00007985294,"about_ca_system_score_gemma":0.000016967417,"threshold_uncertainty_score":0.9608726},"labels":[],"label_agreement":null},{"id":"W4407945361","doi":"10.1002/adma.202419918","title":"Nanocellulose‐Derived Hierarchical Carbon Framework‐Supported P‐Doped MoO <sub>2</sub> Nanoparticles for Optimizing Redox Kinetics in Lithium–Sulfur Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Polysulfide; Materials science; Nanocellulose; Chemical engineering; Nanoparticle; Catalysis; Separator (oil production); Polyaniline; Electrolyte; Lithium (medication); Carbon nanofiber; Carbon fibers; Nanotechnology; Polymerization; Composite number; Electrode; Carbon nanotube; Composite material; Cellulose; Organic chemistry; Chemistry; Polymer","score_opus":0.008351987067978815,"score_gpt":0.2312842174467078,"score_spread":0.22293223037872897,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4407945361","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98526156,0.00033761686,0.01007337,0.00038264002,0.0017143996,0.0008794243,0.000125591,0.0010871502,0.0001382692],"genre_scores_gemma":[0.9626756,0.0005038289,0.035815954,0.00013550416,0.000087217115,0.00058654015,0.000064992746,0.000103099985,0.000027311853],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99747175,0.000060336188,0.00093051867,0.0005409284,0.00017681898,0.00081966544],"domain_scores_gemma":[0.9988842,0.00025614127,0.00012972362,0.0005681744,0.00009295611,0.000068776106],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00024056857,0.00048799202,0.0008024341,0.0002728077,0.00008969294,0.0001352145,0.0003525683,0.00035822368,0.000020467092],"category_scores_gemma":[0.0004047059,0.0004984994,0.00006908131,0.00034504762,0.00017710826,0.00025994927,0.00018993921,0.00019921776,0.000006455324],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021079078,0.000051182058,0.000014375125,0.00043127176,0.000039880102,0.000019391699,0.000108055494,0.006227855,0.9881218,0.001076734,0.000060201608,0.003638468],"study_design_scores_gemma":[0.0009302091,0.000109448185,0.00026605467,0.00043297544,0.000031883952,0.00000421012,0.00012420105,0.0003008193,0.9793262,0.017169274,0.0008082682,0.0004964885],"about_ca_topic_score_codex":0.0000036609624,"about_ca_topic_score_gemma":0.000010752009,"teacher_disagreement_score":0.025742585,"about_ca_system_score_codex":0.0001531992,"about_ca_system_score_gemma":0.00003284774,"threshold_uncertainty_score":0.9997467},"labels":[],"label_agreement":null},{"id":"W4408243907","doi":"10.1002/adma.202500673","title":"Localized Electrolyte Grain Engineering to Suppress Li Intrusion in All‐Solid‐State Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Key Research and Development Program of Zhejiang Province; National Natural Science Foundation of China","keywords":"Electrolyte; Materials science; Amorphous solid; Lithium (medication); Grain size; Chemical engineering; Fast ion conductor; Nanotechnology; Metallurgy; Electrode; Physical chemistry; Crystallography","score_opus":0.005093059789412793,"score_gpt":0.24118534029024716,"score_spread":0.23609228050083436,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408243907","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97316605,0.0001726956,0.022726366,0.0003175716,0.0016591633,0.00051454426,0.000064153464,0.0012418423,0.00013759342],"genre_scores_gemma":[0.991922,0.00034839267,0.006884442,0.00027250923,0.000038854458,0.00032534383,0.000025630037,0.00006864378,0.00011417986],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99825394,0.000027337182,0.00057371426,0.00035829478,0.00013308026,0.00065365643],"domain_scores_gemma":[0.9994009,0.000058048015,0.000042509484,0.00040514464,0.000038184273,0.000055207034],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001979685,0.0003630414,0.0005870339,0.00037163412,0.000038340793,0.000104769446,0.0003174178,0.00012348285,0.00008837993],"category_scores_gemma":[0.00014896206,0.0003669305,0.000034114168,0.00035007208,0.000031333784,0.00031163954,0.00019656624,0.00011931666,0.000040154522],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010656756,0.000011971547,0.00001157527,0.00019791313,0.000024012326,0.00001955558,0.000072751274,0.05338488,0.94147927,0.00039147615,0.00035227666,0.0039477767],"study_design_scores_gemma":[0.0005949917,0.000048575923,0.00035832057,0.00023585554,0.000007684665,0.0000027957922,0.000025079462,0.00034783513,0.97411,0.0024890753,0.02141344,0.0003663553],"about_ca_topic_score_codex":0.000013037864,"about_ca_topic_score_gemma":0.000019287649,"teacher_disagreement_score":0.053037047,"about_ca_system_score_codex":0.00016130833,"about_ca_system_score_gemma":0.0000117554155,"threshold_uncertainty_score":0.9998783},"labels":[],"label_agreement":null},{"id":"W4408246507","doi":"10.1002/adma.202417327","title":"Cardiac Organoid Model Inspired Micro‐Robot Smart Patch to Treat Myocardial Infarction","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Tissue Engineering and Regenerative Medicine","field":"Medicine","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"National Natural Science Foundation of China","keywords":"Organoid; Myocardial infarction; Microvesicles; Cardiology; Biomedical engineering; Internal medicine; Materials science; Medicine; Biology; Neuroscience; microRNA","score_opus":0.00834618004342537,"score_gpt":0.2697229349373636,"score_spread":0.26137675489393825,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408246507","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9768123,0.001165025,0.01520207,0.0021546413,0.0029125519,0.0007248209,0.00006136783,0.00023920271,0.0007279962],"genre_scores_gemma":[0.9667549,0.00020737539,0.0118494425,0.00051007397,0.00055143726,0.0001518831,0.00011177051,0.000046997695,0.019816102],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988022,0.000041004743,0.00032558653,0.00034125935,0.00019563126,0.00029436167],"domain_scores_gemma":[0.9992782,0.00002330228,0.000041519765,0.00035920055,0.00015595312,0.00014181685],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018568384,0.00023919775,0.0006190951,0.00018035587,0.00007951404,0.000018893581,0.0000646241,0.00010856478,0.000054620406],"category_scores_gemma":[0.00016928467,0.00019722947,0.0000705612,0.00027313668,0.000037308197,0.000064686516,0.000048625723,0.00008719679,0.00006160179],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022981149,0.00003398944,0.00021133268,0.00012434981,0.00007289189,0.0000070971237,0.00018254916,0.0049382043,0.9875999,0.00020332224,0.002693405,0.0037031085],"study_design_scores_gemma":[0.0014843838,0.00018350259,0.0030423363,0.00021770429,0.00015592983,0.0000063213283,0.000038186743,0.000059309343,0.969514,0.000057313155,0.025055448,0.00018557112],"about_ca_topic_score_codex":0.000065794935,"about_ca_topic_score_gemma":0.0000023169043,"teacher_disagreement_score":0.022362042,"about_ca_system_score_codex":0.00017643782,"about_ca_system_score_gemma":0.00010099595,"threshold_uncertainty_score":0.80427843},"labels":[],"label_agreement":null},{"id":"W4408647832","doi":"10.1002/adma.202570090","title":"Interfacial Atomic Mechanisms of Single‐Crystalline MoS<sub>2</sub> Epitaxy on Sapphire (Adv. Mater. 11/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Materials science; Sapphire; Epitaxy; Nanotechnology; Optoelectronics; Engineering physics; Optics; Laser","score_opus":0.008633375714611445,"score_gpt":0.2585247271201413,"score_spread":0.24989135140552984,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408647832","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97415614,0.000041457548,0.018297086,0.00038556108,0.004858124,0.0007867979,0.00032771655,0.00043134455,0.0007157775],"genre_scores_gemma":[0.9874926,0.000031694595,0.011252314,0.0005088061,0.0001513498,0.00011639586,0.000043699616,0.000077418656,0.0003257274],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9950356,0.0004989128,0.0015064675,0.0011810694,0.00083541306,0.00094255194],"domain_scores_gemma":[0.99735117,0.00025287192,0.0008535463,0.0010858265,0.0003021777,0.00015438224],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0019041045,0.0006530234,0.0011703506,0.0003668369,0.00027891414,0.00029633072,0.0012430862,0.0002571227,0.0014572436],"category_scores_gemma":[0.00087124767,0.0006022893,0.00013500609,0.00047297814,0.00038515663,0.00055300124,0.000622518,0.0001510875,0.00056501204],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00054387125,0.00018545307,0.000015699687,0.00032567765,0.000014490699,0.000017283639,0.00011241121,0.002414392,0.9779693,0.017496008,0.00021896666,0.0006864309],"study_design_scores_gemma":[0.0009449825,0.00037905556,0.00025742338,0.00058284006,0.00004053748,0.000009876776,0.00007058721,0.00007822125,0.9744522,0.021960178,0.0007108828,0.00051323057],"about_ca_topic_score_codex":0.00006468733,"about_ca_topic_score_gemma":0.000027472981,"teacher_disagreement_score":0.013336459,"about_ca_system_score_codex":0.00027702164,"about_ca_system_score_gemma":0.0001596217,"threshold_uncertainty_score":0.99964285},"labels":[],"label_agreement":null},{"id":"W4408767764","doi":"10.1002/adma.202419020","title":"Improved Facet and Edge Passivation in Near‐Infrared III‐V Colloidal Quantum Dot Photodetectors","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Quantum Dots Synthesis And Properties","field":"Materials Science","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo; University of Toronto","funders":"","keywords":"Passivation; Photodetector; Materials science; Quantum dot; Optoelectronics; Photodetection; Infrared; Quantum efficiency; Absorption (acoustics); Halide; Indium; Absorption edge; Band gap; Optics; Nanotechnology; Layer (electronics); Inorganic chemistry; Chemistry; Physics","score_opus":0.010355598055152791,"score_gpt":0.2443344407202187,"score_spread":0.2339788426650659,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408767764","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99696136,0.00038022382,0.00008335979,0.00017199702,0.0012122268,0.0005776142,0.00006945857,0.00011069382,0.00043304914],"genre_scores_gemma":[0.99769187,0.00012568911,0.001061845,0.00018944553,0.000035606477,0.000196512,0.0000083220475,0.000021393224,0.0006693257],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982901,0.00015153026,0.00055882504,0.00044920956,0.00016507087,0.00038523672],"domain_scores_gemma":[0.9992792,0.00010338054,0.00017017356,0.00031120158,0.0000837225,0.000052293697],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006548938,0.00023776664,0.00047427713,0.00011091542,0.00019028816,0.00031199996,0.00019972521,0.00012090996,0.0004669538],"category_scores_gemma":[0.00034658497,0.00019833934,0.000027112514,0.00018663265,0.00015359424,0.0004198857,0.00012633612,0.000062506726,0.000026220101],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003119091,0.000030320383,0.00005617264,0.00009606719,0.000005264677,0.0000020660468,0.00026574437,0.00002442507,0.9972121,0.0006731195,0.0001548398,0.0011679535],"study_design_scores_gemma":[0.0010059926,0.000081522514,0.0024343124,0.0001408004,0.0000106107545,0.0000014489669,0.00019650799,0.00014059745,0.9903523,0.0021126685,0.00328537,0.00023791622],"about_ca_topic_score_codex":0.00026779601,"about_ca_topic_score_gemma":0.00007105235,"teacher_disagreement_score":0.0068598655,"about_ca_system_score_codex":0.000089335845,"about_ca_system_score_gemma":0.00010392874,"threshold_uncertainty_score":0.8088044},"labels":[],"label_agreement":null},{"id":"W4408770051","doi":"10.1002/adma.202419271","title":"Creating Vacancy Strong Interaction to Enable Homogeneous High‐Throughput Ion Transport for Efficient Solid‐State Lithium Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada)","funders":"Shenzhen Science and Technology Innovation Program; National Key Research and Development Program of China; National Natural Science Foundation of China; Guangdong Innovative and Entrepreneurial Research Team Program","keywords":"Materials science; Electrolyte; Chemical engineering; Ionic conductivity; Cathode; Lithium (medication); Anode; Electrochemistry; Fast ion conductor; Conductivity; Inorganic chemistry; Nanotechnology; Electrode; Chemistry; Physical chemistry","score_opus":0.007482793820818168,"score_gpt":0.255564849620842,"score_spread":0.24808205580002385,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408770051","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8588218,0.00010321935,0.13463925,0.00012587696,0.003822449,0.00082627486,0.00030380973,0.0009730614,0.00038424527],"genre_scores_gemma":[0.98219407,0.00008869974,0.01628413,0.00007493294,0.00013378101,0.00068572955,0.00007377341,0.0000711107,0.000393799],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982793,0.000017543736,0.000606755,0.000417648,0.00012597395,0.0005528103],"domain_scores_gemma":[0.99930054,0.00008185821,0.00009314082,0.00036603305,0.00011028105,0.00004813485],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00016128631,0.00034549204,0.0005260979,0.00017210016,0.00017837407,0.00009515501,0.00020847225,0.0001068685,0.000077615514],"category_scores_gemma":[0.000074177005,0.00034457436,0.000057115554,0.00017781612,0.00003525572,0.00026775472,0.00006609815,0.00007312537,0.00001971711],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011977827,0.000019793553,0.000007447774,0.0003702426,0.000037451402,0.0000048573434,0.00011272409,0.19474143,0.799201,0.00061598065,0.00014799401,0.004621276],"study_design_scores_gemma":[0.00045830364,0.00011438162,0.00012048034,0.00030990428,0.000028859315,0.0000049471914,0.00017126545,0.00014021805,0.98866475,0.0024492084,0.0072015394,0.00033617273],"about_ca_topic_score_codex":0.00003577133,"about_ca_topic_score_gemma":0.000021565356,"teacher_disagreement_score":0.19460121,"about_ca_system_score_codex":0.00020743124,"about_ca_system_score_gemma":0.00002103807,"threshold_uncertainty_score":0.99990064},"labels":[],"label_agreement":null},{"id":"W4408921366","doi":"10.1002/adma.202502266","title":"A Natural Lignification Inspired Super‐Hard Wood‐Based Composites with Extreme Resilience","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Natural Fiber Reinforced Composites","field":"Materials Science","cited_by":80,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Engineering and Physical Sciences Research Council; National Natural Science Foundation of China","keywords":"Materials science; Resilience (materials science); Brinell scale; Composite material; Process engineering","score_opus":0.011131158590857292,"score_gpt":0.24618314200718447,"score_spread":0.2350519834163272,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408921366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943668,0.00044597453,0.0018069162,0.0005573576,0.00088202406,0.0007440768,0.000049968436,0.00044858246,0.00069825066],"genre_scores_gemma":[0.96012896,0.000012231846,0.03821208,0.00056830543,0.000053264386,0.0001417721,0.00007969717,0.000028007702,0.00077567156],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976712,0.0001302763,0.0005475132,0.0006649557,0.00046907284,0.00051702344],"domain_scores_gemma":[0.99842525,0.00021665965,0.00022584577,0.00071237754,0.00033437004,0.00008547742],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003126527,0.00035707455,0.00046359384,0.00019946543,0.00027170675,0.00030459612,0.0006450887,0.00010216417,0.00020642113],"category_scores_gemma":[0.00014476028,0.00028056648,0.000052437612,0.0004944295,0.00019241395,0.0007420354,0.00012080521,0.000117898904,0.00017625625],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006329983,0.00003052516,0.000065754066,0.000100572375,0.000010406048,0.000008769044,0.00003707807,0.00085327734,0.99560434,0.00211206,0.00013718005,0.00040702298],"study_design_scores_gemma":[0.000996162,0.00013182647,0.0013945752,0.00030499787,0.00003277159,0.0000074330974,0.000021559916,0.00012957657,0.99504906,0.00054034055,0.0010335874,0.0003580844],"about_ca_topic_score_codex":0.000046364028,"about_ca_topic_score_gemma":0.0000134800075,"teacher_disagreement_score":0.03640516,"about_ca_system_score_codex":0.00016791189,"about_ca_system_score_gemma":0.000142666,"threshold_uncertainty_score":0.99996465},"labels":[],"label_agreement":null},{"id":"W4409270643","doi":"10.1002/adma.202419893","title":"Polymer Microarray with Tailored Morphologies through Condensed Droplet Polymerization for High‐Resolution Optical Imaging Applications","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanofabrication and Lithography Techniques","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Division of Civil, Mechanical and Manufacturing Innovation; Division of Materials Research; Natural Sciences and Engineering Research Council of Canada; National Institutes of Health; National Science Foundation","keywords":"Materials science; Polymerization; Nanotechnology; Polymer; Optical microscope; Microscopy; Lithography; Optics; Optoelectronics; Scanning electron microscope","score_opus":0.004452653001660549,"score_gpt":0.2333977911984382,"score_spread":0.22894513819677764,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409270643","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"methods","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.030350257,0.0007402962,0.9653211,0.0003973064,0.00020325155,0.00095897476,0.000114327035,0.001117925,0.00079653383],"genre_scores_gemma":[0.89761347,0.00011636595,0.10019699,0.00021038517,0.00003720253,0.0014342073,0.00025020473,0.0000335987,0.0001075712],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916726,0.00001711909,0.00027365348,0.00023282292,0.0000812251,0.0002279177],"domain_scores_gemma":[0.9994984,0.000050623505,0.00006021337,0.00027172122,0.00009517828,0.000023834466],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000071001676,0.0001674379,0.00021307795,0.000115286355,0.0001021717,0.00005785005,0.0001233141,0.00006235736,0.000035122204],"category_scores_gemma":[0.000015346073,0.00015620064,0.000031310316,0.00028482187,0.00009411819,0.00021439885,0.000016933885,0.000036362148,0.0000039794186],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000053982138,0.00001713346,0.000021140731,0.00006516833,0.000024247449,3.4139543e-7,0.000024767698,0.00014213577,0.9631639,0.032582916,0.00047685002,0.0034273807],"study_design_scores_gemma":[0.0005171875,0.000021824015,0.00019944103,0.000034767796,0.00003389676,0.0000027537096,0.00005670133,0.000054168846,0.987252,0.0024219367,0.009223343,0.00018196483],"about_ca_topic_score_codex":0.000013284763,"about_ca_topic_score_gemma":0.0000011109584,"teacher_disagreement_score":0.8672632,"about_ca_system_score_codex":0.000047078225,"about_ca_system_score_gemma":0.000019986852,"threshold_uncertainty_score":0.6369677},"labels":[],"label_agreement":null},{"id":"W4409342582","doi":"10.1002/adma.202570108","title":"Ultrahigh Specific Strength by Bayesian Optimization of Carbon Nanolattices (Adv. Mater. 14/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Tribology and Wear Analysis","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Bayesian optimization; Carbon fibers; Nanotechnology; Composite material; Artificial intelligence; Composite number; Computer science","score_opus":0.003436475826092716,"score_gpt":0.21236421550617215,"score_spread":0.20892773968007944,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409342582","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96447504,0.0017591196,0.025807519,0.00007191207,0.0015178894,0.00021979724,0.00021259562,0.00034202778,0.0055941283],"genre_scores_gemma":[0.99462426,0.00087021117,0.0039535505,0.000013660756,0.00002753446,0.000015422323,0.00010397117,0.000020574327,0.0003707915],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991639,0.00003870813,0.00034759345,0.00017382264,0.00008908506,0.00018689294],"domain_scores_gemma":[0.99958664,0.000045352856,0.00006609369,0.00022821715,0.00004758582,0.000026105407],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010277107,0.0001503975,0.00032121842,0.00011231615,0.00003298536,0.000021508898,0.00012791592,0.00011323567,0.00036570203],"category_scores_gemma":[0.000019700932,0.00015066596,0.000037396316,0.00021141308,0.00003654053,0.00011250578,0.000017064054,0.000045895824,0.0000058842916],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032132182,0.00002017077,0.00013496645,0.00012501635,0.000093380135,0.0000015015039,0.000028212497,0.07933909,0.91877276,0.00037390747,0.00045794266,0.0006209154],"study_design_scores_gemma":[0.00032731958,0.000015906951,0.00017892629,0.000055481232,0.000054314718,4.6543417e-7,0.000027558215,0.0010573888,0.9958751,0.00024250055,0.002029907,0.00013513662],"about_ca_topic_score_codex":0.000015758935,"about_ca_topic_score_gemma":0.0000055311666,"teacher_disagreement_score":0.07828169,"about_ca_system_score_codex":0.000034044406,"about_ca_system_score_gemma":0.000008403148,"threshold_uncertainty_score":0.61439794},"labels":[],"label_agreement":null},{"id":"W4409348474","doi":"10.1002/adma.202418784","title":"Ferromagnetic Atomic <i>d</i>‐<i>p</i> Orbital Hybridization for Promoting Al‐S Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Brookhaven National Laboratory; Argonne National Laboratory; University of Chicago; National Natural Science Foundation of China; Office of Science; Office of Energy Efficiency and Renewable Energy; Canada Excellence Research Chairs, Government of Canada; U.S. Department of Energy","keywords":"Polysulfide; Materials science; Density functional theory; Cathode; Unpaired electron; Catalysis; Nanotechnology; Atom (system on chip); Physical chemistry; Computational chemistry; Electrolyte; Chemistry; Electrode; Molecule; Organic chemistry","score_opus":0.004801208305275562,"score_gpt":0.22566758784484037,"score_spread":0.2208663795395648,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409348474","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9727814,0.000287617,0.021901978,0.0003292034,0.0019484122,0.0007299363,0.00015859159,0.0015081124,0.0003547115],"genre_scores_gemma":[0.98713064,0.00010990163,0.011742184,0.0002057458,0.000053462183,0.000491757,0.000079021,0.000058586465,0.00012870252],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987788,0.00001465227,0.00045086225,0.0002873119,0.00008745049,0.0003808876],"domain_scores_gemma":[0.99947786,0.00006670146,0.00007266418,0.0002853664,0.00007285008,0.000024560557],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014254695,0.00025650053,0.00036854853,0.0001015663,0.00011326374,0.000105676634,0.00019504188,0.00008126912,0.000058894173],"category_scores_gemma":[0.0001398157,0.00025704753,0.000038444745,0.000140391,0.000057440935,0.0003423631,0.00007542769,0.000044430297,0.00001917881],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000035633082,0.000010756529,0.000009380392,0.00039691795,0.000020084855,0.0000024580627,0.000024546714,0.0012028842,0.99173236,0.0013092388,0.001797159,0.0034585749],"study_design_scores_gemma":[0.0005183124,0.000053233667,0.00009241999,0.00013543904,0.000019244048,0.0000060420534,0.000033493066,0.0003177026,0.9708755,0.010722004,0.016964255,0.00026236635],"about_ca_topic_score_codex":0.000001719368,"about_ca_topic_score_gemma":0.0000022566712,"teacher_disagreement_score":0.020856878,"about_ca_system_score_codex":0.00007701743,"about_ca_system_score_gemma":0.000015828859,"threshold_uncertainty_score":0.9999882},"labels":[],"label_agreement":null},{"id":"W4409381379","doi":"10.1002/adma.202419155","title":"Micro‐ and Nano‐Bots for Infection Control","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Malware Detection Techniques","field":"Computer Science","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Population Health Research Institute; McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Materials science; Nano-; Nanotechnology; Composite material","score_opus":0.01504819715961472,"score_gpt":0.3302015277613527,"score_spread":0.315153330601738,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409381379","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0000010696039,0.5108837,0.48582563,0.000011607733,0.0010393375,0.0015922269,0.00010244539,0.0005035017,0.00004052242],"genre_scores_gemma":[0.000011801343,0.89234203,0.104990356,0.000103732316,0.000099604775,0.0020134193,0.000022946375,0.000035318488,0.00038081585],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9979486,0.00013708994,0.0006862377,0.00076393783,0.00012882112,0.0003353553],"domain_scores_gemma":[0.99809724,0.00046352716,0.0005435232,0.00064574543,0.00018880404,0.00006115479],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004020498,0.000450467,0.0015109266,0.00030201583,0.00015395174,0.00018664583,0.0004291143,0.00029460771,0.0000063739762],"category_scores_gemma":[0.0003829444,0.00040905617,0.00018305462,0.00027976654,0.0000408207,0.00052679307,0.00022639168,0.000100548976,0.000009381222],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000080509635,0.0000109120165,3.0839562e-8,0.010697011,0.000032543572,0.000001273396,0.0000041492444,9.2521066e-7,0.0042783367,0.0027545698,0.00017127776,0.98204094],"study_design_scores_gemma":[0.00035445907,0.00010498638,2.7791802e-7,0.0046431543,0.00011592816,0.000033489945,2.512399e-7,0.0000013386395,0.03266746,0.0060124225,0.9556827,0.00038351066],"about_ca_topic_score_codex":0.0000058242,"about_ca_topic_score_gemma":0.0000024338872,"teacher_disagreement_score":0.9816574,"about_ca_system_score_codex":0.000156187,"about_ca_system_score_gemma":0.00015284262,"threshold_uncertainty_score":0.99983615},"labels":[],"label_agreement":null},{"id":"W4409407254","doi":"10.1002/adma.202503814","title":"Thermodynamically‐Driven Phase Engineering and Reconstruction Deduction of Medium‐Entropy Prussian Blue Analogue Nanocrystals","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Machine Learning in Materials Science","field":"Materials Science","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"National Natural Science Foundation of China","keywords":"Prussian blue; Materials science; Phase transition; Multiphysics; Nanoparticle; Chemical physics; Nanocrystal; Nanotechnology; Spectroscopy; Thermodynamics; Electrochemistry; Physical chemistry; Chemistry; Physics; Electrode","score_opus":0.004023299965075212,"score_gpt":0.2536906187256265,"score_spread":0.24966731876055126,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409407254","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9857098,0.00007253722,0.010897161,0.00018891513,0.0024073485,0.00037251128,0.000084749554,0.00016236566,0.0001046179],"genre_scores_gemma":[0.9664247,0.000068188056,0.03321737,0.000025853718,0.000109055334,0.000049795864,0.000019541994,0.000021516722,0.00006397226],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980054,0.00017467122,0.0006912255,0.0005066515,0.00026957667,0.00035250347],"domain_scores_gemma":[0.99897295,0.000098141616,0.00038278106,0.00034911433,0.00012989264,0.00006713333],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00077608094,0.00024321515,0.0004909638,0.00020648159,0.00012701111,0.00012069448,0.00027371338,0.000108146196,0.0006433077],"category_scores_gemma":[0.00041285943,0.00022079253,0.000037454814,0.00023728664,0.00023625663,0.00044767346,0.00013565409,0.0000702979,0.000012739873],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013330071,0.000043649754,0.00004768428,0.00017973868,0.000008906887,0.0000023575992,0.000062913256,0.004911101,0.98778147,0.0058861156,0.000008527973,0.0009342513],"study_design_scores_gemma":[0.0008617312,0.00009484892,0.0011714455,0.0002310495,0.000029461138,0.00003510723,0.000056454308,0.0016610894,0.9934262,0.0019951751,0.0002361749,0.00020126814],"about_ca_topic_score_codex":0.00008484935,"about_ca_topic_score_gemma":0.000009295219,"teacher_disagreement_score":0.02232021,"about_ca_system_score_codex":0.0000838971,"about_ca_system_score_gemma":0.00007701099,"threshold_uncertainty_score":0.90036577},"labels":[],"label_agreement":null},{"id":"W4409653483","doi":"10.1002/adma.202500848","title":"Golden Single‐Atom Alloys Selectively Boosting Oxygen Reduction and Methanol Oxidation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada)","funders":"Shenzhen Science and Technology Innovation Program; Shenzhen Municipal Science and Technology Innovation Council; National Natural Science Foundation of China","keywords":"Catalysis; Materials science; Methanol; Selectivity; Anode; Cathode; Density functional theory; Atom (system on chip); Chemical engineering; Octahedron; Oxygen; Nanotechnology; Chemical physics; Physical chemistry; Crystallography; Computational chemistry; Chemistry; Crystal structure; Electrode; Organic chemistry","score_opus":0.009051721697040441,"score_gpt":0.24102597014345253,"score_spread":0.2319742484464121,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409653483","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99159753,0.0002908653,0.0011111483,0.00018588777,0.000626894,0.00020377574,0.000001861594,0.0002673931,0.0057146456],"genre_scores_gemma":[0.9931294,0.00008150196,0.004620492,0.00008934332,0.00010249139,0.00004736377,0.00006163785,0.00003310777,0.001834684],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986559,0.0001138558,0.00031370716,0.00041927956,0.00020270325,0.00029455716],"domain_scores_gemma":[0.99930346,0.000061587074,0.00015472171,0.00022462133,0.00021224556,0.00004338923],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00034062855,0.00019592112,0.00026287974,0.00017969862,0.00015097103,0.00006675131,0.00011747075,0.00011954282,0.000062387466],"category_scores_gemma":[0.00023202684,0.00020645147,0.000029692445,0.00031363431,0.000039719424,0.00050018064,0.00008375509,0.00006182899,0.000024015299],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000120137505,0.0000205432,0.000008823211,0.000037528735,0.00004853168,0.0000015800289,0.00007974983,0.00014323281,0.96863425,0.011683122,0.00009823019,0.019124275],"study_design_scores_gemma":[0.00052281516,0.00006776673,0.00034249626,0.00007491975,0.000051877523,0.000012319478,0.00006853852,0.000009756143,0.9761738,0.0061401646,0.016346665,0.0001888393],"about_ca_topic_score_codex":0.00034724048,"about_ca_topic_score_gemma":0.000069677924,"teacher_disagreement_score":0.018935435,"about_ca_system_score_codex":0.00034214763,"about_ca_system_score_gemma":0.000052648,"threshold_uncertainty_score":0.8418847},"labels":[],"label_agreement":null},{"id":"W4409775770","doi":"10.1002/adma.202419245","title":"Toward Switching and Fusing Neuromorphic Computing: Vertical Bulk Heterojunction Transistors with Multi‐Neuromorphic Functions for Efficient Deep Learning","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Fujian Science and Technology Innovation Laboratory for Optoelectronic Information of China; National Natural Science Foundation of China","keywords":"Neuromorphic engineering; Spiking neural network; Artificial neural network; Computer science; Transistor; Coding (social sciences); Spike (software development); Materials science; Efficient energy use; Heterojunction; Voltage; Electronic circuit; Synaptic weight; Artificial intelligence; Computer architecture; Electronic engineering; Optoelectronics; Electrical engineering; Engineering","score_opus":0.026966137680382616,"score_gpt":0.23849534357330127,"score_spread":0.21152920589291865,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409775770","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.57541937,0.000103202205,0.42293414,0.000033938435,0.0008568591,0.00028578375,0.0000026899886,0.0003472308,0.000016798038],"genre_scores_gemma":[0.99531525,0.000021018492,0.0043843025,0.000075417636,0.00008044515,0.000028708382,0.000013119688,0.00005752182,0.000024229385],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99864775,0.000058109446,0.00036585552,0.0004065303,0.00012358799,0.00039819058],"domain_scores_gemma":[0.99942994,0.00022595494,0.000049441416,0.00014521502,0.00007170379,0.000077719465],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00018201416,0.00028458604,0.00036177234,0.00012994876,0.00041286863,0.00007548448,0.00007735458,0.00007049435,0.000005942301],"category_scores_gemma":[0.00011358444,0.00027463125,0.000047353486,0.00019559417,0.00004785493,0.00014185789,0.00003742705,0.00022142242,0.000002441939],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012968069,0.000015034225,0.000018256154,0.00020493042,0.000017432085,0.000006700809,0.00011648604,0.44495252,0.55100065,0.000045703873,0.0000011652538,0.0034914382],"study_design_scores_gemma":[0.0032910034,0.00040123338,0.0012723244,0.00048148003,0.00017078711,0.00011213167,0.00023962413,0.25957158,0.7325378,0.000084794854,0.0011721272,0.00066508685],"about_ca_topic_score_codex":0.0000018740869,"about_ca_topic_score_gemma":0.0000032695355,"teacher_disagreement_score":0.4198959,"about_ca_system_score_codex":0.00007152549,"about_ca_system_score_gemma":0.000012334575,"threshold_uncertainty_score":0.9999706},"labels":[],"label_agreement":null},{"id":"W4409778921","doi":"10.1002/adma.202503004","title":"Cellular Glycocalyx Affects Nanoparticle Access to Cell Membranes and Uptake","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Erythrocyte Function and Pathophysiology","field":"Medicine","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Canadian Institutes of Health Research; Hospital for Sick Children; Canada Excellence Research Chairs, Government of Canada; NanoMedicines Innovation Network","keywords":"Glycocalyx; Nanoparticle; Materials science; Biophysics; Cell membrane; Nanotechnology; Cell; Surface charge; Chemistry; Biochemistry; Biology","score_opus":0.013602016930579162,"score_gpt":0.28732060692213096,"score_spread":0.2737185899915518,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409778921","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99463224,0.00032845943,0.00017600557,0.00088932004,0.0009987799,0.0004718054,0.000008578669,0.00009456065,0.0024002378],"genre_scores_gemma":[0.9928415,0.00013130369,0.00070169085,0.003580026,0.00008415302,0.00005838287,0.00001267104,0.0000143593,0.0025759232],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992013,0.000032726388,0.0001817867,0.00028149394,0.00008604404,0.00021666959],"domain_scores_gemma":[0.99949914,0.000055292538,0.000041060724,0.00023665793,0.0000584746,0.00010935621],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011855738,0.00013094995,0.00032767054,0.00008192823,0.000066422734,0.000036578145,0.000065087144,0.00006681065,0.00040419865],"category_scores_gemma":[0.00009503973,0.00011136782,0.000025583175,0.00016984832,0.00003570834,0.000106601045,0.00009058509,0.00003994678,0.000089222434],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00062419736,0.00004757749,0.00006632915,0.00036754977,0.0000114238965,0.000020070607,0.000040914987,0.000017089134,0.99578875,0.00022808918,0.0009250854,0.0018629194],"study_design_scores_gemma":[0.0012670637,0.00021920988,0.003210184,0.000080080594,0.000042222568,0.0000051755414,0.00003452747,0.000004321787,0.95822424,0.00025763368,0.03655911,0.00009626004],"about_ca_topic_score_codex":0.000007790877,"about_ca_topic_score_gemma":0.0000036968308,"teacher_disagreement_score":0.037564542,"about_ca_system_score_codex":0.000022438917,"about_ca_system_score_gemma":0.000036590405,"threshold_uncertainty_score":0.45414478},"labels":[],"label_agreement":null},{"id":"W4409831496","doi":"10.1002/adma.202418681","title":"Rational Ligand Design of Conjugated Coordination Polymers for Efficient and Selective Nitrate Electroreduction to Ammonia","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ammonia Synthesis and Nitrogen Reduction","field":"Chemical Engineering","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Marsden Fund; National Natural Science Foundation of China","keywords":"Catalysis; Pyrrole; Conjugated system; Ligand (biochemistry); Ammonia; Pyridine; Combinatorial chemistry; Electrocatalyst; Chemistry; Materials science; Inorganic chemistry; Polymer; Photochemistry; Organic chemistry; Physical chemistry; Electrochemistry","score_opus":0.007862387151869661,"score_gpt":0.24745566446378078,"score_spread":0.23959327731191113,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409831496","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.82873553,0.00009421846,0.17017987,0.00015398877,0.00018770351,0.0005564583,0.000028593162,0.00004048642,0.00002316208],"genre_scores_gemma":[0.9890032,0.000008905549,0.010534059,0.000021761613,0.00003761207,0.00018361557,0.000018009541,0.000013617582,0.00017926257],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99929124,0.000027384527,0.00024860076,0.00019866822,0.000082744875,0.00015138499],"domain_scores_gemma":[0.99952424,0.00009861724,0.00008619067,0.000066340996,0.0001934347,0.00003116391],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018829577,0.0001098181,0.00020158329,0.00010415819,0.00006575543,0.00001624575,0.000037558835,0.000056717003,0.000010681131],"category_scores_gemma":[0.0001891334,0.00011006466,0.000021491736,0.00017470583,0.000025006897,0.0000663508,0.000010610556,0.000025571258,0.0000012286963],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00075922406,0.000027822085,0.0000018124508,0.000046905196,0.000043819156,5.9159564e-8,0.000050338327,0.012793262,0.97942805,0.004949741,0.00003344024,0.0018655283],"study_design_scores_gemma":[0.0004936393,0.00011186428,0.00008854907,0.000043018492,0.000033813256,0.0000016218512,0.00004959816,0.0020434232,0.99626493,0.0006970083,0.00007391642,0.00009858343],"about_ca_topic_score_codex":0.000016511753,"about_ca_topic_score_gemma":7.948837e-7,"teacher_disagreement_score":0.16026765,"about_ca_system_score_codex":0.000084786014,"about_ca_system_score_gemma":0.00004165304,"threshold_uncertainty_score":0.44883066},"labels":[],"label_agreement":null},{"id":"W4409896191","doi":"10.1002/adma.202419879","title":"Narrow‐Linewidth Emission and Weak Exciton‐Phonon Coupling in 2D Layered Germanium Halide Perovskites","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto","funders":"Division of Materials Research; École Polytechnique Fédérale de Lausanne; Rowland Institute at Harvard; Studienstiftung des Deutschen Volkes; Harvard University; National Science Foundation","keywords":"Materials science; Photoluminescence; Halide; Exciton; Germanium; Laser linewidth; Phonon; Perovskite (structure); Semiconductor; Density functional theory; Condensed matter physics; Crystallography; Optoelectronics; Optics; Inorganic chemistry; Computational chemistry; Physics; Chemistry","score_opus":0.00538217077041041,"score_gpt":0.23790569718610155,"score_spread":0.23252352641569113,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409896191","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99571246,0.0007605042,0.00077859586,0.00013275068,0.0006091398,0.00028878564,0.000057173616,0.00025971766,0.0014008826],"genre_scores_gemma":[0.9975705,0.00039896648,0.0013704526,0.00005298802,0.000094777875,0.00013777864,0.00004559286,0.00003600877,0.000292925],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989195,0.000015068822,0.00041944996,0.00027078215,0.00008908397,0.00028615733],"domain_scores_gemma":[0.9995526,0.00005630551,0.00004757312,0.00025081722,0.000034956593,0.00005772326],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019740991,0.00021282196,0.0003328842,0.00011564347,0.00007916695,0.000104343606,0.0001261822,0.00010551025,0.00010353693],"category_scores_gemma":[0.000027462907,0.00021274347,0.000021528856,0.00015245352,0.00002845342,0.00018553357,0.000065774904,0.00006512627,0.000016523347],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022995431,0.00001462655,0.000104740604,0.0001846912,0.0000069073485,0.000002070428,0.0000580023,0.007810248,0.9904662,0.0005493842,0.00032343811,0.0004567003],"study_design_scores_gemma":[0.00057705736,0.000010599322,0.0030608715,0.00020510926,0.000010036776,0.0000028014374,0.00006277298,0.0012778422,0.98212504,0.000950297,0.011477616,0.00023993861],"about_ca_topic_score_codex":0.00003683322,"about_ca_topic_score_gemma":0.0000136030085,"teacher_disagreement_score":0.011154178,"about_ca_system_score_codex":0.00007096558,"about_ca_system_score_gemma":0.000018054167,"threshold_uncertainty_score":0.8675427},"labels":[],"label_agreement":null},{"id":"W4409952791","doi":"10.1002/adma.202570130","title":"Crossing the Dimensional Divide with Optoelectronic Tweezers: Multicomponent Light‐Driven Micromachines with Motion Transfer in Three Dimensions (Adv. Mater. 17/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced MEMS and NEMS Technologies","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Materials science; Tweezers; Optical tweezers; Optoelectronics; Nanotechnology; Motion (physics); Optics; Classical mechanics; Physics","score_opus":0.006188207201584572,"score_gpt":0.2263088912080607,"score_spread":0.2201206840064761,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409952791","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9864758,0.00066811487,0.010959539,0.00043166897,0.0002486549,0.0006107181,0.000022473858,0.00051454915,0.00006844255],"genre_scores_gemma":[0.9928923,0.00011568343,0.006581363,0.000061260034,0.000022850365,0.00018599031,0.000019030229,0.000052750976,0.000068735535],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99858904,0.000017402612,0.0003519871,0.00035405415,0.00018123277,0.0005063044],"domain_scores_gemma":[0.9993963,0.00008302468,0.000039180894,0.00039694604,0.000051083858,0.000033457334],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000115705916,0.00035046448,0.00040203714,0.00014981798,0.0002525255,0.000103834005,0.00021844279,0.00010301319,0.000020668744],"category_scores_gemma":[0.000014921863,0.00021301316,0.00003577947,0.00028083925,0.0001655353,0.00030972128,0.000064870444,0.00020678996,0.000006022674],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016739691,0.000039219995,0.00014155135,0.00006430169,0.00005449498,0.0000149323905,0.00008583689,0.05426464,0.94351375,0.0005593666,0.000015648222,0.0010788462],"study_design_scores_gemma":[0.0013534572,0.000099720535,0.005706757,0.0005537837,0.000041313557,0.0000137479265,0.000050886945,0.0002808699,0.98853564,0.0020736095,0.00096864667,0.00032155795],"about_ca_topic_score_codex":0.000040904422,"about_ca_topic_score_gemma":0.0005121212,"teacher_disagreement_score":0.053983767,"about_ca_system_score_codex":0.00016727595,"about_ca_system_score_gemma":0.000035858546,"threshold_uncertainty_score":0.8686425},"labels":[],"label_agreement":null},{"id":"W4410036435","doi":"10.1002/adma.202504142","title":"Detecting Cr<sup>6+</sup> at ≈100 pM Concentration with Fluorescence Enhancement Signatures in a Novel Eco‐Fluorophore: Matching WHO's 96 pM Recommended Standard for Drinking Water","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Carbon and Quantum Dots Applications","field":"Materials Science","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Fluorophore; Materials science; Fluorescence; Analytical Chemistry (journal); Matching (statistics); Optics; Environmental chemistry; Physics; Statistics; Chemistry; Mathematics","score_opus":0.01096575498163287,"score_gpt":0.2715501238310629,"score_spread":0.26058436884943004,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410036435","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9698063,0.00007904298,0.026913164,0.0005697983,0.0004691982,0.0016688087,0.00012553857,0.00013538486,0.00023273836],"genre_scores_gemma":[0.9754311,0.000052870713,0.022731185,0.00037441042,0.00009726836,0.0009364877,0.000061383,0.000044108827,0.0002711795],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973124,0.000091920934,0.0007630406,0.00076758355,0.0003438278,0.0007212083],"domain_scores_gemma":[0.9988448,0.00020397619,0.00022953091,0.00045250123,0.00019162662,0.00007755087],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009581892,0.00035382225,0.0005717463,0.0001165947,0.00042991838,0.00028721083,0.00031533366,0.00012903393,0.00033664837],"category_scores_gemma":[0.00009406388,0.0002790304,0.000056634493,0.00019554375,0.00007940242,0.00037958944,0.00018530345,0.00012035151,0.00001296308],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009886108,0.00005783781,0.000024179728,0.00013940773,0.000014577615,0.0000025273953,0.0015097714,0.0034799892,0.9905714,0.0018331989,0.0000782471,0.0013002646],"study_design_scores_gemma":[0.002066718,0.0001479948,0.000052863812,0.0004555861,0.000025159025,0.0000031625614,0.00032727123,0.00058733625,0.99020076,0.002089169,0.0036785528,0.00036541052],"about_ca_topic_score_codex":0.000105460706,"about_ca_topic_score_gemma":0.00023031223,"teacher_disagreement_score":0.005624781,"about_ca_system_score_codex":0.0007210027,"about_ca_system_score_gemma":0.00013306669,"threshold_uncertainty_score":0.9999662},"labels":[],"label_agreement":null},{"id":"W4410167440","doi":"10.1002/adma.202501544","title":"A Perspective on the Origin of High‐Entropy Solid Electrolytes","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Mitacs; Canada Research Chairs","keywords":"Materials science; Electrolyte; Entropy (arrow of time); Perspective (graphical); Nanotechnology; Management science; Thermodynamics; Computer science; Artificial intelligence; Physics; Physical chemistry; Engineering; Chemistry","score_opus":0.005873633061344341,"score_gpt":0.24962520917946113,"score_spread":0.2437515761181168,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410167440","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99399096,0.00020113058,0.0019060841,0.00060082343,0.0007920373,0.0002874303,0.000058375317,0.00048275484,0.0016804248],"genre_scores_gemma":[0.998376,0.0002790402,0.00095148094,0.000107846296,0.00003926928,0.000100567544,0.000003520479,0.000022180078,0.0001201064],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992195,0.00002237548,0.00024851173,0.00016638298,0.00009885725,0.00024442258],"domain_scores_gemma":[0.99941105,0.00011122652,0.000059081838,0.00033499635,0.000072655974,0.000011019467],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009499527,0.00017531731,0.00031652456,0.000081849954,0.00005285182,0.00002619396,0.00022533655,0.00006207929,0.00013424053],"category_scores_gemma":[0.00012700095,0.00012009282,0.000031473464,0.00014736713,0.000074234835,0.00008742018,0.000043648222,0.00006607672,0.000021152726],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052019866,0.000011298599,0.0000012235029,0.000032151056,0.00003880787,0.0000011878362,0.000018758712,0.0013818343,0.7753643,0.22220176,0.00037425914,0.0005223841],"study_design_scores_gemma":[0.00022701139,0.000060518887,0.00010368809,0.000064993576,0.000011443732,7.2793836e-7,0.000114185525,0.000011298613,0.91664743,0.08087186,0.0017827124,0.00010410016],"about_ca_topic_score_codex":0.000012009421,"about_ca_topic_score_gemma":0.0000022610316,"teacher_disagreement_score":0.14132991,"about_ca_system_score_codex":0.0001251129,"about_ca_system_score_gemma":0.000012797767,"threshold_uncertainty_score":0.48972434},"labels":[],"label_agreement":null},{"id":"W4410167577","doi":"10.1002/adma.202504515","title":"Self‐Assembled Monolayer Interface with Reconstructed Hydrogen‐Bond Network for Enhanced CO<sub>2</sub> Electroreduction","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Natural Science Foundation of China","keywords":"Monolayer; Materials science; Interface (matter); Hydrogen; Hydrogen bond; Self-assembled monolayer; Nanotechnology; Chemical physics; Molecule; Organic chemistry; Composite material; Chemistry","score_opus":0.004992150670039845,"score_gpt":0.2491466470197544,"score_spread":0.24415449634971453,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410167577","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97159845,0.0001940271,0.023502845,0.00010090858,0.0011721118,0.0009820139,0.000012732959,0.00079827703,0.0016386193],"genre_scores_gemma":[0.9824121,0.00025391404,0.01575363,0.00007411146,0.00033019696,0.00084073166,0.00006950856,0.00006351628,0.0002023192],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99819726,0.000060777857,0.000519059,0.00056246907,0.00014301953,0.0005174444],"domain_scores_gemma":[0.9989092,0.000049239283,0.00027434726,0.000451538,0.00024991026,0.000065790475],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022643308,0.00032284655,0.0004959477,0.00012694091,0.00018886672,0.00007831708,0.00018437913,0.00017346714,0.00005575603],"category_scores_gemma":[0.000036291167,0.0003034693,0.00008453726,0.00039997612,0.000020175592,0.0002917961,0.000038387003,0.00009770536,0.000019903791],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008649913,0.000042213098,0.000001340435,0.00008523668,0.0001538874,7.250594e-7,0.000041331714,0.00074576127,0.9734182,0.0027015568,0.0011187209,0.020826072],"study_design_scores_gemma":[0.0009721649,0.00021747235,0.000008599895,0.00011689682,0.00008875583,0.00002158231,0.00006287507,0.000019866478,0.9753034,0.006000632,0.016860904,0.00032683677],"about_ca_topic_score_codex":0.000022454908,"about_ca_topic_score_gemma":0.000055166714,"teacher_disagreement_score":0.020499235,"about_ca_system_score_codex":0.00023456707,"about_ca_system_score_gemma":0.00010898199,"threshold_uncertainty_score":0.99994177},"labels":[],"label_agreement":null},{"id":"W4410414274","doi":"10.1002/adma.202417770","title":"Decoding Chemo‐Mechanical Failure Mechanisms of Solid‐State Lithium Metal Battery Under Low Stack Pressure via Optical Fiber Sensors","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Key Research and Development Program of China; Banting and Best Diabetes Centre, University of Toronto; Guangzhou Municipal Science and Technology Project; Hong Kong University of Science and Technology; Hong Kong Polytechnic University; Department of Industrial and Systems Engineering, Hong Kong Polytechnic University; National Natural Science Foundation of China","keywords":"Materials science; Anode; Stack (abstract data type); Ceramic; Composite material; Stress (linguistics); Nanotechnology; Electrode","score_opus":0.00718335488799655,"score_gpt":0.24904414003072298,"score_spread":0.24186078514272644,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410414274","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.70246774,0.00009749903,0.29123193,0.0002110909,0.0035483958,0.0008823696,0.00054765906,0.00056977046,0.00044350352],"genre_scores_gemma":[0.9510703,0.000043893495,0.046784278,0.00024802622,0.00010880722,0.00012269759,0.00005214003,0.0001356254,0.0014342478],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99706095,0.00010664381,0.0011229331,0.0005627312,0.0004074661,0.00073927763],"domain_scores_gemma":[0.99867094,0.00018078666,0.00018826213,0.0006963881,0.00015165372,0.000111976646],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004667125,0.00054192956,0.0010373517,0.00016816304,0.00007941251,0.0000722965,0.00039783277,0.00024625123,0.001850984],"category_scores_gemma":[0.000112459915,0.00054338656,0.000094591705,0.00020041964,0.00009131245,0.0005219419,0.00028289534,0.00017355918,0.00013510263],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011650046,0.00004953123,6.0949156e-7,0.0008116861,0.0002676963,0.000011836052,0.0000338396,0.049249243,0.9465538,0.0019771298,0.0003773771,0.00055071],"study_design_scores_gemma":[0.00083770393,0.00005318927,0.0000176875,0.00030180695,0.00013454509,0.000011428542,0.00004348999,0.00032017176,0.9738553,0.022810923,0.001151144,0.00046261054],"about_ca_topic_score_codex":0.0000021701399,"about_ca_topic_score_gemma":0.0000019714132,"teacher_disagreement_score":0.24860251,"about_ca_system_score_codex":0.00012943055,"about_ca_system_score_gemma":0.000032963977,"threshold_uncertainty_score":0.99970174},"labels":[],"label_agreement":null},{"id":"W4410446387","doi":"10.1002/adma.202505008","title":"CO<sub>2</sub>‐Responsive Smart Wood Scaffold for Natural Organic Matter Removal without Secondary Pollution","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Covalent Organic Framework Applications","field":"Materials Science","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Canada Foundation for Innovation","keywords":"Pollution; Environmental chemistry; Water treatment; Contamination; Materials science; Environmental science; Chemistry; Environmental engineering","score_opus":0.006298001021865455,"score_gpt":0.2614174790953868,"score_spread":0.25511947807352137,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410446387","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9858851,0.00029330573,0.0058030244,0.0023370122,0.002849179,0.001594992,0.00052105525,0.0003234585,0.000392913],"genre_scores_gemma":[0.98621035,0.000031687625,0.0093034245,0.0024194426,0.00019927886,0.00043642343,0.00012737785,0.000073379306,0.0011986305],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975249,0.00014467488,0.00065504224,0.000769867,0.00029910318,0.00060639216],"domain_scores_gemma":[0.99827856,0.00023818655,0.00029357205,0.0008108689,0.00029118988,0.00008762058],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0006549032,0.00035716573,0.00051932957,0.0001886999,0.00036125115,0.00020209736,0.00047070268,0.00020491151,0.0016116373],"category_scores_gemma":[0.00040096656,0.0003583327,0.00009482572,0.00035431533,0.00015544545,0.00043976307,0.00015099866,0.00013801076,0.0013148963],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00046960503,0.00005164314,0.000020480518,0.00013358073,0.000025193374,0.0000027655701,0.0000647307,0.0000047862413,0.9900816,0.0019863462,0.0062065287,0.0009527397],"study_design_scores_gemma":[0.0011533521,0.000047185284,0.0020202047,0.00014070481,0.00007038448,0.00003539804,0.00006676783,0.0000037702594,0.97747356,0.0062450883,0.01238159,0.0003620006],"about_ca_topic_score_codex":0.000005703706,"about_ca_topic_score_gemma":0.000024006997,"teacher_disagreement_score":0.012608047,"about_ca_system_score_codex":0.00033246426,"about_ca_system_score_gemma":0.0003258198,"threshold_uncertainty_score":0.9998869},"labels":[],"label_agreement":null},{"id":"W4410446778","doi":"10.1002/adma.202501542","title":"Mussel‐Inspired Molecular Strategies for Fabricating Functional Materials With Underwater Adhesion and Self‐Healing Properties","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"China Scholarship Council","keywords":"Adhesion; Underwater; Nanotechnology; Materials science; Mussel; Self-healing hydrogels; Self-healing; Biofouling; Atomic force microscopy; Rational design; Composite material; Biology; Ecology; Polymer chemistry","score_opus":0.04355575872717948,"score_gpt":0.31592154770364544,"score_spread":0.27236578897646596,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410446778","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.04950374,0.9404858,0.0029400846,0.000056474157,0.002299012,0.0033194677,0.00069826125,0.0005548004,0.00014241051],"genre_scores_gemma":[0.019137025,0.9630871,0.012192703,0.00014596943,0.00027646418,0.004185914,0.00022784784,0.00020807855,0.0005388972],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9962531,0.0003444834,0.0012568522,0.0010825363,0.00041153206,0.00065152533],"domain_scores_gemma":[0.99767697,0.00045584876,0.00094937475,0.00050113816,0.0003268286,0.00008986947],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000667125,0.0008557795,0.0023233888,0.00023138162,0.00042570345,0.00074927614,0.00030247774,0.00026832093,0.00016641757],"category_scores_gemma":[0.00015443849,0.0005898378,0.00013326414,0.00017353459,0.00019067604,0.00080209883,0.00028224685,0.000106990185,0.000041512474],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020028037,0.0000645448,2.6829127e-7,0.03542759,0.0002276839,0.000009402805,0.00017518722,0.000035111818,0.9523114,0.00044926038,0.00008598634,0.011013283],"study_design_scores_gemma":[0.0005514486,0.00018172491,0.0000018992582,0.01946164,0.00083200366,0.000041381092,0.00040048605,8.5221257e-7,0.86954504,0.00026288436,0.10783824,0.0008823959],"about_ca_topic_score_codex":0.00006823915,"about_ca_topic_score_gemma":0.00001060705,"teacher_disagreement_score":0.107752256,"about_ca_system_score_codex":0.00019760824,"about_ca_system_score_gemma":0.00048867683,"threshold_uncertainty_score":0.9996553},"labels":[],"label_agreement":null},{"id":"W4410507001","doi":"10.1002/adma.202503107","title":"Novel Sulfide‐Chloride Solid‐State Electrolytes with Tunable Anion Ratio for Highly Stable Solid‐State Sodium‐Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Natural Resources Canada; Western University","funders":"Government of Saskatchewan; Natural Sciences and Engineering Research Council of Canada; Western University; Canada Foundation for Innovation; Canadian Institutes of Health Research; National Research Council; University of Saskatchewan; Canadian Light Source","keywords":"Materials science; Electrolyte; Ionic conductivity; Sulfide; Electrochemistry; Ionic bonding; Chloride; Chemical engineering; Halide; Ion; Thermal stability; Sodium; Inorganic chemistry; Electrode; Chemistry; Physical chemistry; Organic chemistry; Metallurgy","score_opus":0.006163236392622239,"score_gpt":0.2272489609750196,"score_spread":0.22108572458239736,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410507001","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7707119,0.00019098408,0.22421442,0.00025523853,0.0014638903,0.0010274367,0.00042785663,0.0015410817,0.00016719596],"genre_scores_gemma":[0.9790141,0.00066623586,0.017559877,0.00017082569,0.00011439582,0.0009151176,0.00014623698,0.00014444898,0.0012687922],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99750364,0.000021855143,0.0007379078,0.00055361365,0.00020389097,0.0009790931],"domain_scores_gemma":[0.9988259,0.00013753929,0.00018585795,0.00056340784,0.00022488939,0.00006237603],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027953647,0.0005648518,0.00083376846,0.00022547695,0.00026272828,0.0003246797,0.00034408984,0.00013371909,0.00004451606],"category_scores_gemma":[0.000100215824,0.0004999135,0.00005814443,0.0002843242,0.00011558802,0.0010541253,0.00011475208,0.00011658913,0.000020432826],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007468787,0.000035622797,0.000009794501,0.00051058334,0.000101047845,0.000005186308,0.000059737966,0.022489158,0.97336406,0.0010674185,0.00046371613,0.0011468073],"study_design_scores_gemma":[0.0015275147,0.0002589026,0.000094174415,0.00022118437,0.000039687555,0.000008926655,0.00007084978,0.00022180856,0.97574496,0.011850736,0.0093916245,0.0005696239],"about_ca_topic_score_codex":0.000026242134,"about_ca_topic_score_gemma":0.000059737467,"teacher_disagreement_score":0.20830217,"about_ca_system_score_codex":0.00019147129,"about_ca_system_score_gemma":0.00006884486,"threshold_uncertainty_score":0.99974525},"labels":[],"label_agreement":null},{"id":"W4410901250","doi":"10.1002/adma.202505287","title":"Electrochemical Cell Designs for Efficient Carbon Dioxide Reduction and Water Electrolysis: Status and Perspectives","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"École de Technologie Supérieure; BC Innovation Council; National Research Council Canada; Institut National de la Recherche Scientifique","funders":"Fonds de recherche du Québec – Nature et technologies; Natural Resources Canada; Centre québécois sur les matériaux fonctionnels; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; École de technologie supérieure; Institut national de la recherche scientifique","keywords":"Electrolysis; Electrochemical reduction of carbon dioxide; Renewable energy; Electrolysis of water; Electrochemistry; Process engineering; Anode; Fossil fuel; Power to gas; Electricity; Materials science; Nanotechnology; Environmental science; Catalysis; Electrolyte; Waste management; Chemistry; Electrode; Engineering; Carbon monoxide","score_opus":0.014223378621366259,"score_gpt":0.28204006800453385,"score_spread":0.2678166893831676,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410901250","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0057415245,0.9920382,0.0003530905,0.000017294096,0.00022411103,0.0011829671,0.000031903746,0.0001819461,0.00022895075],"genre_scores_gemma":[0.0065600914,0.99007875,0.001048685,0.000003971683,0.00018908168,0.0011400112,0.00020921271,0.00006363958,0.00070658524],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99804825,0.00010528797,0.0004907587,0.0007200542,0.00012795716,0.00050770957],"domain_scores_gemma":[0.9992717,0.00006302691,0.00018315704,0.00029232207,0.00010762124,0.00008219988],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00021722878,0.00042812296,0.0012186607,0.00020548275,0.000093101386,0.000060466173,0.00009372713,0.00026226722,0.000021737591],"category_scores_gemma":[0.00005350869,0.00032493586,0.00014988726,0.00012484618,0.00006384262,0.000048913455,0.00007569649,0.000121638666,0.0000011173346],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009804495,0.00004492044,7.136277e-9,0.006954201,0.00009590517,6.699685e-7,0.00014781236,0.0000027635692,0.8442866,0.00062238175,0.000010662519,0.147736],"study_design_scores_gemma":[0.00022723617,0.000110317946,5.4074377e-8,0.000893687,0.0006436904,0.00002705896,0.00007381477,4.9687503e-7,0.78349006,0.00067726086,0.21351941,0.00033692608],"about_ca_topic_score_codex":0.000045289566,"about_ca_topic_score_gemma":0.0000016806551,"teacher_disagreement_score":0.21350874,"about_ca_system_score_codex":0.00028449376,"about_ca_system_score_gemma":0.00008077281,"threshold_uncertainty_score":0.99992025},"labels":[],"label_agreement":null},{"id":"W4411023834","doi":"10.1002/adma.202506955","title":"Bioinspired Smart Nanogels for Rapid Blue Laser‐Activated Hemostasis in Gastrointestinal Bleeding","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Hemostasis and retained surgical items","field":"Medicine","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"","keywords":"Hemostasis; Nanogel; Fibrin; Materials science; Coagulation; Thrombin; Gastrointestinal tract; Nanotechnology; Medicine; Surgery; Internal medicine; Immunology; Platelet; Drug delivery","score_opus":0.019977856354919755,"score_gpt":0.30106634054289955,"score_spread":0.28108848418797977,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411023834","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99442697,0.00013600467,0.00077262655,0.0017362509,0.00037658153,0.001139181,0.00011556446,0.0001309967,0.0011658558],"genre_scores_gemma":[0.9876279,0.00007209853,0.0101590725,0.0007376117,0.00008644868,0.00017936694,0.00013783813,0.000037189824,0.00096247066],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981831,0.00005658675,0.00063540635,0.00042093167,0.00017846873,0.0005255444],"domain_scores_gemma":[0.9990133,0.00025920547,0.00012607596,0.00026543895,0.00020915881,0.00012680645],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005419084,0.00025103783,0.0006952179,0.00022513178,0.00009102563,0.000041255837,0.000096152384,0.000100106015,0.0001996953],"category_scores_gemma":[0.00082524045,0.00020526409,0.00011069864,0.0004186017,0.00006752628,0.00012852061,0.00005232151,0.00010213711,0.000012763336],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001402196,0.00015231481,0.00065181183,0.00031683,0.000033839045,0.000055884502,0.000029231092,0.000020000121,0.9831865,0.00025073794,0.00039556832,0.01350509],"study_design_scores_gemma":[0.004065584,0.00029637682,0.0009166306,0.0014557266,0.000041560845,0.00004425657,0.00015241583,0.00003472318,0.97001094,0.0002160007,0.022585532,0.00018028206],"about_ca_topic_score_codex":0.00002521941,"about_ca_topic_score_gemma":0.00000552191,"teacher_disagreement_score":0.022189964,"about_ca_system_score_codex":0.00015631966,"about_ca_system_score_gemma":0.0001334099,"threshold_uncertainty_score":0.8370426},"labels":[],"label_agreement":null},{"id":"W4411067206","doi":"10.1002/adma.202570152","title":"Nanocellulose‐Derived Hierarchical Carbon Framework‐Supported P‐Doped MoO <sub>2</sub> Nanoparticles for Optimizing Redox Kinetics in Lithium–Sulfur Batteries (Adv. Mater. 22/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Materials science; Nanocellulose; Lithium (medication); Kinetics; Nanoparticle; Redox; Sulfur; Nanotechnology; Carbon fibers; Doping; Chemical engineering; Inorganic chemistry; Cellulose; Composite number; Composite material; Chemistry","score_opus":0.009092126819688847,"score_gpt":0.23664688024290004,"score_spread":0.2275547534232112,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411067206","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98590606,0.0003737547,0.008363179,0.0004130058,0.0021813887,0.0010768211,0.00016829085,0.0013193352,0.00019813895],"genre_scores_gemma":[0.9631049,0.00064764405,0.03495007,0.00015767664,0.00010413201,0.00073611474,0.00009882068,0.00013728811,0.000063368345],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99681765,0.000081099955,0.0011691657,0.0006807845,0.00022494157,0.0010263436],"domain_scores_gemma":[0.9986587,0.00026452396,0.00017201102,0.0007030228,0.00011228819,0.000089454275],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002925021,0.0006290326,0.0009968795,0.00033754768,0.00011407821,0.00019692781,0.00045161817,0.00044518439,0.0000509134],"category_scores_gemma":[0.0003641666,0.0006409716,0.000087914814,0.0004019767,0.00021565905,0.00033708557,0.00026526806,0.0002391489,0.000013690493],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029242507,0.000065362525,0.000020977195,0.0006632917,0.000054269763,0.000031311905,0.000117527976,0.005753433,0.9889988,0.0010700409,0.00010757414,0.0028250408],"study_design_scores_gemma":[0.0010910349,0.0001323033,0.00031157152,0.0005955239,0.00004376876,0.0000054876527,0.00015175018,0.00030652332,0.97966635,0.016086262,0.0009787148,0.0006306781],"about_ca_topic_score_codex":0.000005504147,"about_ca_topic_score_gemma":0.00000852453,"teacher_disagreement_score":0.02658689,"about_ca_system_score_codex":0.00019554351,"about_ca_system_score_gemma":0.00004023833,"threshold_uncertainty_score":0.99960417},"labels":[],"label_agreement":null},{"id":"W4411135311","doi":"10.1002/adma.202504534","title":"A Fully Integrated Wearable Sweat Sensing Patch for Online Analysis of Multiple Parkinson's Disease‐Related Biomarkers","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"MacEwan University","funders":"National Natural Science Foundation of China","keywords":"Wearable computer; Asymptomatic; Parkinson's disease; Ascorbic acid; Biomarker; Materials science; Wearable technology; Computer science; Disease; Biomedical engineering; Embedded system; Medicine; Internal medicine; Biology","score_opus":0.00888032710116176,"score_gpt":0.24139010689579485,"score_spread":0.23250977979463308,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411135311","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9697658,0.0004443699,0.026238432,0.000036817404,0.0011363716,0.0004007303,0.0013456581,0.0004988166,0.00013303924],"genre_scores_gemma":[0.96191394,0.0003066167,0.03660819,0.00003421111,0.000028401106,0.00003686573,0.0007693663,0.0000615322,0.00024088298],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981867,0.000070952796,0.0007873723,0.00037987065,0.00014389592,0.00043120875],"domain_scores_gemma":[0.99881285,0.0002858925,0.00015891576,0.00041859527,0.00022245149,0.00010131136],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000257861,0.00033129187,0.0008589462,0.00045164238,0.000086524524,0.000037902035,0.00015717909,0.00012381024,0.000069303955],"category_scores_gemma":[0.0005634301,0.00032353317,0.00017619951,0.0010241809,0.000067430985,0.00019172335,0.0000388715,0.00005340965,0.0000027473313],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033850138,0.000030638086,0.00015593995,0.0002522635,0.0009815432,0.00000494435,0.000029462586,0.23831956,0.7546988,0.00006645859,0.00008073203,0.0050411657],"study_design_scores_gemma":[0.0017418904,0.000041578973,0.004076485,0.00054075965,0.0013596165,0.0000010673002,0.00014123012,0.061141744,0.91681814,0.0015917141,0.01198594,0.0005598563],"about_ca_topic_score_codex":0.0001172757,"about_ca_topic_score_gemma":0.00011996726,"teacher_disagreement_score":0.17717782,"about_ca_system_score_codex":0.00011451496,"about_ca_system_score_gemma":0.000041257004,"threshold_uncertainty_score":0.9999217},"labels":[],"label_agreement":null},{"id":"W4411135314","doi":"10.1002/adma.202417520","title":"Machine‐Learning‐Aided Advanced Electrochemical Biosensors","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced biosensing and bioanalysis techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":87,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal General Hospital; McGill University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Biosensor; Nanotechnology; Software portability; Nanomaterials; Computer science; Materials science","score_opus":0.009329559495955929,"score_gpt":0.312026321931461,"score_spread":0.3026967624355051,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411135314","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00022638548,0.99710625,0.00028209426,0.000023633424,0.00034268465,0.0008501458,0.0002575697,0.00027603982,0.000635209],"genre_scores_gemma":[0.00055371487,0.9830987,0.008431119,0.0001652582,0.00029851907,0.00017655533,0.0039026,0.00012994489,0.0032435744],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.99628866,0.0003471278,0.0010339306,0.001312774,0.00028814128,0.00072935],"domain_scores_gemma":[0.99789727,0.00008601827,0.00071565853,0.000951664,0.00020960058,0.00013976847],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00032425867,0.0009732048,0.002202421,0.00024744967,0.00014261233,0.000068278365,0.00055014587,0.00088863965,0.00001784655],"category_scores_gemma":[0.0008898248,0.0008133867,0.00066899107,0.0003875457,0.00013624626,0.000009056035,0.00034900793,0.0003823549,0.000025347194],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013630738,0.00005046816,1.2722386e-7,0.003246732,0.00029966896,0.000010511528,0.0000018120959,0.000001027032,0.6508531,0.000039204424,0.00029188194,0.34506917],"study_design_scores_gemma":[0.00017976531,0.0001267074,3.6826258e-8,0.0017046378,0.00037520478,0.000027735918,0.0000025266534,1.9314285e-7,0.41544664,0.00006188266,0.58154833,0.00052632025],"about_ca_topic_score_codex":0.0000036121485,"about_ca_topic_score_gemma":0.000004007709,"teacher_disagreement_score":0.58125645,"about_ca_system_score_codex":0.00011517119,"about_ca_system_score_gemma":0.00023873133,"threshold_uncertainty_score":0.99943167},"labels":[],"label_agreement":null},{"id":"W4411149427","doi":"10.1002/adma.202504592","title":"Stiffening Liquid Crystal Elastomers with Liquid Crystal Inclusions","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"State of Ohio; Natural Sciences and Engineering Research Council of Canada; Ohio Department of Higher Education; Division of Materials Research; Kent State University; National Science Foundation","keywords":"Materials science; Elastomer; Liquid crystal; Composite material; Mesophase; Toughness; Polymer; Stiffness; Stiffening; Elasticity (physics); Thermal fluctuations; Thermodynamics","score_opus":0.004170077640678166,"score_gpt":0.2191503185053972,"score_spread":0.21498024086471904,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411149427","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9317293,0.00024711606,0.061388485,0.000056833404,0.0024126167,0.0004692037,0.0001647414,0.00091446424,0.0026172504],"genre_scores_gemma":[0.9876192,0.0002433535,0.011216015,0.00013387398,0.0001417292,0.00014750828,0.000053920492,0.000102699116,0.00034168694],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99827915,0.00003594502,0.0004786484,0.00037178592,0.00023965712,0.0005948042],"domain_scores_gemma":[0.9992096,0.00006112442,0.00008912569,0.00040566755,0.00011035599,0.00012417173],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019498952,0.00039274644,0.0005223473,0.00016693848,0.00021685638,0.00006923506,0.00024018677,0.00013782378,0.00029150437],"category_scores_gemma":[0.00007059503,0.00035774877,0.00004862177,0.00026675148,0.00005483807,0.00040450817,0.00021651835,0.00012110411,0.000028762299],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00090092735,0.000020910069,2.2912138e-7,0.00019835732,0.00005147538,0.000019858242,0.000106362844,0.01805109,0.9778918,0.0022776201,0.0001243969,0.000356961],"study_design_scores_gemma":[0.00096386235,0.00037825337,0.000005826513,0.00031990523,0.000044467142,0.000015940164,0.00016366615,0.000067834044,0.96724945,0.00055254786,0.029805128,0.00043312446],"about_ca_topic_score_codex":0.0000068670893,"about_ca_topic_score_gemma":0.000016297472,"teacher_disagreement_score":0.055889927,"about_ca_system_score_codex":0.00017866772,"about_ca_system_score_gemma":0.0000688346,"threshold_uncertainty_score":0.99988747},"labels":[],"label_agreement":null},{"id":"W4411163601","doi":"10.1002/adma.202504980","title":"Lightweight and Superelastic Wood Carbon Sponges Enabled by Wood Cell Wall Reconfiguration","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Fundamental Research Funds for the Central Universities","keywords":"Materials science; Pseudoelasticity; Composite material; Carbonization; Lamellar structure; Carbon fibers; Scanning electron microscope; Microstructure","score_opus":0.0028791938459722826,"score_gpt":0.18444144579378594,"score_spread":0.18156225194781364,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411163601","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9889228,0.0017454202,0.0020061142,0.000070744594,0.0021598912,0.0004042418,0.000080607555,0.00039927528,0.0042109117],"genre_scores_gemma":[0.9944333,0.002198963,0.0018410671,0.00007351418,0.000070098155,0.00010673006,0.00006256718,0.000057186808,0.0011565657],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988051,0.00003451395,0.00038825523,0.00031070603,0.00010546331,0.00035594666],"domain_scores_gemma":[0.99950624,0.000060118015,0.000058109556,0.00024848877,0.000054832715,0.00007221809],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014096008,0.00028529653,0.000401352,0.00008342061,0.000066161774,0.00008137597,0.00010967905,0.00015213834,0.00012712339],"category_scores_gemma":[0.000039795526,0.00027811923,0.000022064982,0.00009995641,0.000017754708,0.00023342151,0.000037427675,0.000069112466,0.000014339675],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005055137,0.000017055543,5.9605253e-7,0.00030377493,0.00001806249,0.0000034329037,0.000059397993,0.00030462135,0.9970297,0.00096600765,0.00026984158,0.0009769307],"study_design_scores_gemma":[0.00077062426,0.000053187123,0.00000944709,0.00010096348,0.000039026894,0.0000029333085,0.000036113335,0.00015686841,0.97396195,0.0034022126,0.021182675,0.00028401555],"about_ca_topic_score_codex":0.000009505147,"about_ca_topic_score_gemma":0.000008507535,"teacher_disagreement_score":0.023067795,"about_ca_system_score_codex":0.000088578505,"about_ca_system_score_gemma":0.000021262147,"threshold_uncertainty_score":0.9999671},"labels":[],"label_agreement":null},{"id":"W4411193022","doi":"10.1002/adma.202502293","title":"Origami Crawlers: Exploring A Single Origami Vertex for Complex Path Navigation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Polytechnique Montréal","funders":"Army Research Office; Nederlandse Organisatie voor Wetenschappelijk Onderzoek","keywords":"Morphing; Crawling; Vertex (graph theory); Computer science; Robotics; Path (computing); Folding (DSP implementation); Robot; Artificial intelligence; Topology (electrical circuits); Mechanical engineering; Engineering; Theoretical computer science; Graph","score_opus":0.0438258972292181,"score_gpt":0.26511767775647266,"score_spread":0.22129178052725457,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411193022","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.70789313,0.00023891871,0.2789177,0.00005838217,0.009559497,0.0011459631,0.00031880368,0.0011607057,0.0007068969],"genre_scores_gemma":[0.9457507,0.00020556597,0.05245777,0.000102032136,0.0001992719,0.0007824133,0.00022484364,0.000092377704,0.00018500285],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986009,0.000019981557,0.00048301718,0.00031295436,0.00013643818,0.00044673603],"domain_scores_gemma":[0.99933684,0.00006899738,0.00007869404,0.0003260098,0.00012524049,0.000064233136],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019147317,0.00028490697,0.0004473796,0.00008254271,0.000120195116,0.00009115707,0.00017242841,0.00009443143,0.00006435766],"category_scores_gemma":[0.00008988244,0.00029792858,0.00005990555,0.0001578355,0.000018052544,0.0005058067,0.00005082783,0.00004948845,0.000026156928],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000071320086,0.000024346535,3.441281e-7,0.0004779606,0.000027868642,0.0000025009597,0.000064228705,0.0028478054,0.97804856,0.011192721,0.00037788073,0.006864481],"study_design_scores_gemma":[0.00092998525,0.00007541607,0.000011730438,0.00032372447,0.00002976713,0.0000021080039,0.00012830489,0.00059752644,0.92053974,0.025477674,0.051575825,0.0003081862],"about_ca_topic_score_codex":0.000004426186,"about_ca_topic_score_gemma":0.00000267281,"teacher_disagreement_score":0.2378576,"about_ca_system_score_codex":0.00021779108,"about_ca_system_score_gemma":0.000023313307,"threshold_uncertainty_score":0.9999473},"labels":[],"label_agreement":null},{"id":"W4411224376","doi":"10.1002/adma.202507609","title":"Regulating Electron Transfer in Vanadium‐Based Metal–Organic Frameworks via the Synergy of Linker Engineering and Machine Learning for Efficient and Reversible Aqueous Zinc Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"National Natural Science Foundation of China","keywords":"Materials science; Metal-organic framework; Vanadium; Density functional theory; Aqueous solution; Electrochemistry; Linker; Electron transfer; Ligand (biochemistry); Redox; Electrode; Nanotechnology; Photochemistry; Computational chemistry; Physical chemistry; Chemistry","score_opus":0.005552234843283601,"score_gpt":0.22521737378648615,"score_spread":0.21966513894320255,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411224376","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.79955405,0.0012871645,0.19832298,0.00016467398,0.00011532023,0.00038793884,0.000010109207,0.0001495894,0.000008182701],"genre_scores_gemma":[0.994114,0.00023522585,0.0054407152,0.000024429275,0.000011345048,0.00009823119,0.000011459755,0.000040603874,0.000023994173],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989672,0.000033500168,0.00031483953,0.00022845177,0.00010232566,0.00035371032],"domain_scores_gemma":[0.99933046,0.00037603246,0.0000297406,0.00020056941,0.00004055549,0.000022653292],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002923513,0.00018859975,0.0003322802,0.00020494596,0.00007512845,0.000028237804,0.00012860443,0.000171079,0.000011813647],"category_scores_gemma":[0.00028126355,0.00016472788,0.000023993256,0.00027003267,0.00006538605,0.00009015486,0.000058892314,0.00030109362,2.1943434e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051345432,0.000005182383,0.000020110872,0.00032568915,0.000019695068,0.0000010685571,0.000043925073,0.23287839,0.7623068,0.00019015546,0.000001154243,0.004156496],"study_design_scores_gemma":[0.0004893891,0.00006793084,0.00014884553,0.00023377725,0.000015616159,0.0000025300287,0.0000343566,0.07824972,0.91973746,0.0004075722,0.00046954554,0.00014325215],"about_ca_topic_score_codex":0.000012947311,"about_ca_topic_score_gemma":0.00003047573,"teacher_disagreement_score":0.19455996,"about_ca_system_score_codex":0.0000971552,"about_ca_system_score_gemma":0.0000124573935,"threshold_uncertainty_score":0.67174083},"labels":[],"label_agreement":null},{"id":"W4411327972","doi":"10.1002/adma.202502134","title":"Janus Cellular Design Drives Solar‐Powered Spatial Lithium Extraction and Water Co‐Generation from Salt‐Lake Brines","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Solar-Powered Water Purification Methods","field":"Energy","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Key Research and Development Program of China; Innovation and Technology Commission - Hong Kong; National Natural Science Foundation of China","keywords":"Materials science; Chemical engineering; Adsorption; Janus; Lithium (medication); Nanotechnology; Chemistry; Organic chemistry","score_opus":0.024674998318640555,"score_gpt":0.29843127685027354,"score_spread":0.273756278531633,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411327972","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.6391231,0.0002402536,0.35608625,0.0002947626,0.0029359083,0.00048348014,0.00007719477,0.00022514947,0.000533914],"genre_scores_gemma":[0.908141,0.00016842311,0.08764794,0.00020392882,0.0006093892,0.0001772159,0.00092034164,0.00006171959,0.0020700512],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974252,0.0006289725,0.000665948,0.00066097535,0.00024040964,0.00037851467],"domain_scores_gemma":[0.99884516,0.00015972913,0.0001837479,0.0005482828,0.0001788888,0.00008419591],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0007364834,0.00033207654,0.0004434551,0.00015525369,0.00022493396,0.00027138492,0.00018100101,0.00023897139,0.0009291724],"category_scores_gemma":[0.0002108672,0.0002878764,0.000049504757,0.00009217756,0.00008075553,0.0005629691,0.0000683674,0.000106691026,0.00012526606],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002552807,0.000044020773,0.00011037606,0.000023822051,0.000059088667,0.0000065766367,0.00030746585,0.00056104595,0.9888111,0.00057465845,0.00020527843,0.009041283],"study_design_scores_gemma":[0.0009025073,0.000046815574,0.0025150941,0.000033533313,0.000057217156,0.0000031362404,0.00003317602,0.00014469834,0.9431079,0.008112108,0.044737726,0.00030609555],"about_ca_topic_score_codex":0.00069961924,"about_ca_topic_score_gemma":0.00021121035,"teacher_disagreement_score":0.26901793,"about_ca_system_score_codex":0.00006726801,"about_ca_system_score_gemma":0.000039240724,"threshold_uncertainty_score":0.9999841},"labels":[],"label_agreement":null},{"id":"W4411618786","doi":"10.1002/adma.202505150","title":"Heterojunction‐Driven Stochasticity: Bi‐Heterojunction Noise‐Enhanced Negative Transconductance Transistor in Image Generation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Institute for Information and Communications Technology Promotion; Ministry of Science and ICT, South Korea; National Research Foundation of Korea; National Research Foundation","keywords":"Materials science; Transconductance; Heterojunction; Optoelectronics; Transistor; Noise (video); Image (mathematics); Electrical engineering; Computer science; Artificial intelligence","score_opus":0.013598277191532136,"score_gpt":0.24631144460866677,"score_spread":0.23271316741713463,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411618786","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.6652545,0.00007700901,0.33150226,0.000040151393,0.0021625916,0.0004072821,0.000021605143,0.00027593804,0.00025870977],"genre_scores_gemma":[0.99371237,0.00007827364,0.005571347,0.00012272983,0.00017502782,0.00015204704,0.000031173346,0.00004222498,0.00011479065],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99846846,0.000072496485,0.0005331532,0.0004169569,0.00014645557,0.0003624665],"domain_scores_gemma":[0.9994914,0.00006856677,0.00007294058,0.0002334759,0.00008529749,0.00004835392],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012839175,0.00030749186,0.0004208263,0.0002006883,0.00012248606,0.000048717786,0.00012449427,0.00010476034,0.00006197846],"category_scores_gemma":[0.00006963584,0.00033408808,0.0000634075,0.0003598907,0.000053240896,0.0007501325,0.000014500298,0.0001698066,0.000019059515],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010399375,0.000017214299,0.0000011796379,0.00010288309,0.000015776628,0.000003478118,0.00018808915,0.17582081,0.8203429,0.00005743575,0.000024087105,0.003322172],"study_design_scores_gemma":[0.001215568,0.000058901718,0.00018034046,0.00016317247,0.000020239342,0.000002471883,0.00005128224,0.003420804,0.99389386,0.0005357325,0.00016409071,0.00029352598],"about_ca_topic_score_codex":0.000006017394,"about_ca_topic_score_gemma":0.00006384094,"teacher_disagreement_score":0.32845792,"about_ca_system_score_codex":0.0002547909,"about_ca_system_score_gemma":0.000020700169,"threshold_uncertainty_score":0.9999111},"labels":[],"label_agreement":null},{"id":"W4411645111","doi":"10.1002/adma.202503765","title":"Ion‐Framework Electrolyte Featured Zinc‐Ion Transport for Solvent and Interphasial Co‐Passivation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Electrolyte; Passivation; Materials science; Electrochemistry; Anode; Electrochemical window; Solvation; Inorganic chemistry; Chemical engineering; Ion; Electrochemical potential; Electrode; Nanotechnology; Chemistry; Organic chemistry; Ionic conductivity; Physical chemistry; Layer (electronics)","score_opus":0.007693330269357812,"score_gpt":0.29335448697508115,"score_spread":0.28566115670572334,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411645111","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.5747011,0.00034919468,0.42114875,0.00060312153,0.0009307328,0.0010097381,0.00010013276,0.00083323,0.00032400232],"genre_scores_gemma":[0.98153114,0.00041175325,0.017109014,0.00008111916,0.000086543434,0.00047109698,0.00009404988,0.000042369968,0.00017289212],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988568,0.000015072331,0.0003068323,0.00028021645,0.0001388959,0.0004022157],"domain_scores_gemma":[0.99945027,0.0001233316,0.000044652348,0.00027776425,0.00006923283,0.000034763583],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015963137,0.00020805564,0.0003074982,0.00016635194,0.00008889272,0.000041370837,0.00019058843,0.00020720442,0.000030780513],"category_scores_gemma":[0.00016341932,0.00020805265,0.000039395145,0.00017229514,0.00006198829,0.00023059691,0.000031625998,0.00016550864,0.0000039483625],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026897548,0.000014289085,0.000021194219,0.00022064538,0.00003866295,0.0000025011946,0.000029713774,0.00084874424,0.97831273,0.0037045756,0.00038569307,0.016152265],"study_design_scores_gemma":[0.0006655752,0.000096806325,0.00046590218,0.00015372361,0.000013267092,0.0000027073183,0.000031217623,0.00013126357,0.96227974,0.021984288,0.013986476,0.0001890549],"about_ca_topic_score_codex":0.0000013496326,"about_ca_topic_score_gemma":0.000004391053,"teacher_disagreement_score":0.40683007,"about_ca_system_score_codex":0.00017617077,"about_ca_system_score_gemma":0.000019506608,"threshold_uncertainty_score":0.84841406},"labels":[],"label_agreement":null},{"id":"W4411654667","doi":"10.1002/adma.202505196","title":"Synergistic Cathode‐Electrolyte Engineering for Enhanced Longevity in Li‐S Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund; University of Alberta","keywords":"Electrolyte; Cathode; Materials science; Sulfur; Lithium (medication); Chemical engineering; Ion; Polysulfide; Nanotechnology; Chemistry; Metallurgy; Electrode; Organic chemistry","score_opus":0.003927293331872417,"score_gpt":0.22088755337607016,"score_spread":0.21696026004419774,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411654667","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.83263206,0.00036004165,0.16365305,0.00007416675,0.0015125376,0.0005272581,0.00008289183,0.00093846716,0.00021953102],"genre_scores_gemma":[0.98760855,0.00023493574,0.011095255,0.000052536212,0.00006141557,0.0007681917,0.000027490201,0.00005599169,0.00009563159],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985628,0.000014696786,0.00047669723,0.00032300557,0.00008386657,0.00053890696],"domain_scores_gemma":[0.9993721,0.00015287196,0.000052148123,0.00034828647,0.0000476036,0.00002697697],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019095792,0.00031338903,0.00053882995,0.00021183817,0.000049231934,0.00006597378,0.0002372274,0.00014189459,0.000035126333],"category_scores_gemma":[0.0002748398,0.00032595883,0.00003838044,0.00022190485,0.00003868603,0.00026278768,0.000067209956,0.000084381696,0.00000965266],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000060217786,0.00001217728,0.000004575789,0.000499537,0.000019346488,0.0000036609392,0.000022635246,0.02442853,0.96903014,0.0020937363,0.00008099901,0.0037444148],"study_design_scores_gemma":[0.000550693,0.000036849306,0.00025057537,0.0001928506,0.0000136703875,9.100349e-7,0.000017791295,0.00030770607,0.9922402,0.0034224459,0.0026519764,0.00031436922],"about_ca_topic_score_codex":0.0000051998527,"about_ca_topic_score_gemma":0.000017329334,"teacher_disagreement_score":0.15497649,"about_ca_system_score_codex":0.00016517498,"about_ca_system_score_gemma":0.000017417738,"threshold_uncertainty_score":0.99991924},"labels":[],"label_agreement":null},{"id":"W4411713480","doi":"10.1002/adma.202411617","title":"Advancing from MOFs and COFs to Functional Macroscopic Porous Constructs","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Covalent Organic Framework Applications","field":"Materials Science","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia, Okanagan Campus; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; National Science Foundation","keywords":"Materials science; Porosity; Nanotechnology; Metal-organic framework; Porous medium; Structuring; Nanoengineering; Composite material; Adsorption; Organic chemistry","score_opus":0.015202459982277346,"score_gpt":0.31154061901566454,"score_spread":0.29633815903338717,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411713480","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0035257614,0.9829476,0.0030016855,0.00011027984,0.0046099606,0.002063458,0.0032413597,0.0003025802,0.00019733186],"genre_scores_gemma":[0.00015923275,0.9615696,0.035625063,0.0003099976,0.00035048637,0.0008046738,0.00037014516,0.000082706574,0.0007280677],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9968504,0.00015422331,0.0009793525,0.0011305417,0.0003577847,0.00052771013],"domain_scores_gemma":[0.99763703,0.0006684121,0.00045077867,0.0009103281,0.00013798696,0.00019548151],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00034494878,0.0005759817,0.0017604844,0.00017475693,0.00021971729,0.00023343162,0.00044900813,0.00032350488,0.003036738],"category_scores_gemma":[0.0006930987,0.00054611283,0.00008437785,0.00034918083,0.00011949545,0.00019017464,0.0005780087,0.0001749199,0.0008551206],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047230547,0.000064219545,0.0000025452289,0.013159868,0.000082662315,0.000018856015,0.00006489278,0.000012189062,0.33306798,0.0038146137,0.0032402345,0.6464247],"study_design_scores_gemma":[0.00029252382,0.000034229393,0.000013368211,0.011823478,0.00039467833,0.00003115756,0.000019490704,1.12869806e-7,0.03400969,0.00279807,0.9499356,0.0006475823],"about_ca_topic_score_codex":0.00004639874,"about_ca_topic_score_gemma":0.000020995747,"teacher_disagreement_score":0.9466954,"about_ca_system_score_codex":0.00030359218,"about_ca_system_score_gemma":0.00051505736,"threshold_uncertainty_score":0.9999228},"labels":[],"label_agreement":null},{"id":"W4411909673","doi":"10.1002/adma.202505793","title":"Triboelectric Nanogenerators Enable Multifunctional Ice Accretion, Melting, and Interfacial Fracture Detection","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University Health Network; University of British Columbia, Okanagan Campus; University of British Columbia; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Ministère de la Défense Nationale; University of Toronto; Canada Foundation for Innovation","keywords":"Triboelectric effect; Icing; Materials science; Rope; Composite material; Mechanical engineering; Meteorology; Engineering","score_opus":0.00458569830360473,"score_gpt":0.21223823231454128,"score_spread":0.20765253401093656,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411909673","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.965016,0.00046297142,0.029970123,0.00002585128,0.0029319949,0.00019095291,0.00002827279,0.00059533294,0.00077847444],"genre_scores_gemma":[0.9967548,0.0001917328,0.0021121197,0.0001291281,0.00025783572,0.00006828078,0.000038616912,0.000038796898,0.00040867936],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99886286,0.0000488843,0.00037506392,0.0002875565,0.0001199144,0.00030569223],"domain_scores_gemma":[0.99954516,0.00006804733,0.00006941597,0.00016303679,0.00009892718,0.00005541094],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016631144,0.000248158,0.00030684573,0.00016167692,0.00018411734,0.0001014148,0.000082608385,0.00014667961,0.00016017379],"category_scores_gemma":[0.00024199754,0.00024428839,0.000028914113,0.00023393876,0.00003323326,0.0003261486,0.000032136115,0.00008799971,0.000014606123],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000076718774,0.000007273692,0.000008539789,0.00007931597,0.000029643268,0.0000016259773,0.000031322925,0.032016706,0.9605864,0.00016049283,0.00015888142,0.006843025],"study_design_scores_gemma":[0.0005358454,0.000029908435,0.00023320307,0.00004918073,0.000022630846,0.000008030922,0.00002282644,0.0003220549,0.9674298,0.0012436814,0.029878281,0.00022453503],"about_ca_topic_score_codex":0.000024001029,"about_ca_topic_score_gemma":0.000015164552,"teacher_disagreement_score":0.031738784,"about_ca_system_score_codex":0.00011353098,"about_ca_system_score_gemma":0.000015769423,"threshold_uncertainty_score":0.9961791},"labels":[],"label_agreement":null},{"id":"W4411922446","doi":"10.1002/adma.202413353","title":"Hierarchically MOF‐Based Porous Monolith Composites for Atmospheric Water Harvesting","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Solar-Powered Water Purification Methods","field":"Energy","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia, Okanagan Campus; University of British Columbia","funders":"Canada Foundation for Innovation","keywords":"Materials science; Porosity; Monolith; Nanotechnology; Porous medium; Leverage (statistics); Sorption; Nanoscopic scale; Scalability; Process engineering; Composite material; Adsorption; Computer science; Catalysis","score_opus":0.03781265417410839,"score_gpt":0.35374928977521874,"score_spread":0.31593663560111035,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411922446","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000120998906,0.95014125,0.04005882,0.00008919263,0.0026188185,0.0036796944,0.0006635241,0.0008611365,0.0017665393],"genre_scores_gemma":[0.000013372349,0.5015475,0.4885402,0.00020800016,0.00032777982,0.0027096083,0.002086749,0.00024757825,0.00431918],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99489003,0.00097254745,0.0017789807,0.0011293582,0.0003132681,0.00091581914],"domain_scores_gemma":[0.99621946,0.0014277876,0.0006400651,0.0012567425,0.00029623095,0.00015971132],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0011225203,0.00093716406,0.002965756,0.00010245731,0.00024819342,0.00029429828,0.0008727344,0.0005500873,0.00034853854],"category_scores_gemma":[0.00078675844,0.000690213,0.00044674383,0.000296098,0.00009433373,0.0002245271,0.00018893067,0.00025014408,0.00015091413],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000110951165,0.00008574008,3.9017354e-7,0.032282654,0.00022833467,0.000013881858,0.00004865206,0.0007313671,0.023024296,0.0023068269,0.00013190167,0.94103503],"study_design_scores_gemma":[0.00062682224,0.000077892044,7.8921624e-7,0.006153206,0.000535815,0.000011207686,0.0000029558685,0.000021856427,0.05442208,0.0026671744,0.93468255,0.0007976426],"about_ca_topic_score_codex":0.00008594767,"about_ca_topic_score_gemma":0.0000055950104,"teacher_disagreement_score":0.94023734,"about_ca_system_score_codex":0.0002820113,"about_ca_system_score_gemma":0.00030484187,"threshold_uncertainty_score":0.99955493},"labels":[],"label_agreement":null},{"id":"W4411923806","doi":"10.1002/adma.202502211","title":"Electrospun Lignin/ZnO Nanofibrous Membranes for Self‐Powered Ultrasensitive Flexible Airflow Sensor and Wearable Device","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; China Scholarship Council; Deutsche Forschungsgemeinschaft; Alexander von Humboldt-Stiftung","keywords":"Airflow; Materials science; Wearable computer; Nanotechnology; Wearable technology; Electronics; Triboelectric effect; Computer science; Electrical engineering; Embedded system; Mechanical engineering; Engineering","score_opus":0.0058140122127463365,"score_gpt":0.22986508823365343,"score_spread":0.2240510760209071,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411923806","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9798424,0.0017138452,0.008963195,0.000089250345,0.0022212516,0.000993515,0.00025085112,0.0021780278,0.0037476234],"genre_scores_gemma":[0.9186517,0.0020904467,0.076490976,0.00025635833,0.00021909642,0.00024023015,0.00007506865,0.00014229551,0.001833802],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99818796,0.000058774625,0.000495215,0.00046754282,0.00013222935,0.00065829733],"domain_scores_gemma":[0.9990326,0.00030843692,0.00008318595,0.00030835488,0.00016832087,0.00009906163],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025137773,0.00041256307,0.0006659328,0.0001245508,0.00022888748,0.0001366033,0.00012025787,0.000162346,0.000027566733],"category_scores_gemma":[0.0001782886,0.000420629,0.000056937264,0.00019878834,0.0000514189,0.00036401843,0.000034940764,0.00006258227,0.000019831241],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015887237,0.000018809906,0.0000034301484,0.00093194,0.00009596852,0.0000074585005,0.00008597229,0.008681331,0.9884266,0.0006828921,0.00021474974,0.0006919697],"study_design_scores_gemma":[0.0011265731,0.000080600264,0.000047697777,0.00024296319,0.00006678903,0.000023768287,0.00008173573,0.00018432605,0.9814617,0.0020811663,0.014167032,0.00043565244],"about_ca_topic_score_codex":0.000019155641,"about_ca_topic_score_gemma":0.000007949587,"teacher_disagreement_score":0.067527786,"about_ca_system_score_codex":0.00009826026,"about_ca_system_score_gemma":0.00003483787,"threshold_uncertainty_score":0.9998245},"labels":[],"label_agreement":null},{"id":"W4412070974","doi":"10.1002/adma.202507557","title":"Carbon Doped Boron Nitride Nano‐Coatings for Durable, Low Emissivity Glass Windows","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Thermal Radiation and Cooling Technologies","field":"Engineering","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Science Foundation Graduate Research Fellowship Program; Air Force Office of Scientific Research; Basic Energy Sciences; Office of Naval Research; U.S. Navy; U.S. Air Force; Division of Chemical, Bioengineering, Environmental, and Transport Systems; Innovation and Technology Fund; Rice University; National Science Foundation","keywords":"Materials science; Coating; Composite material; Low emissivity; Boron nitride; Carbon fibers; Emissivity; Optics; Composite number","score_opus":0.005125201607475653,"score_gpt":0.22667895867670262,"score_spread":0.22155375706922698,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412070974","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9915841,0.00023603936,0.003350952,0.00015580532,0.0010931307,0.00045604288,0.00005696349,0.0014073094,0.001659608],"genre_scores_gemma":[0.99660313,0.00012149248,0.0024100775,0.000080945974,0.000046949746,0.00021632393,0.000013914069,0.00002942703,0.00047775212],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99920106,0.000013418331,0.00026440626,0.00017606607,0.00007796876,0.0002670628],"domain_scores_gemma":[0.99952126,0.00008330326,0.0000575905,0.0002546514,0.000056505745,0.000026667649],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015545751,0.00016395168,0.00025843302,0.000076104974,0.00006195082,0.000046039087,0.00017939179,0.00011561882,0.000022741837],"category_scores_gemma":[0.00034029005,0.00016461323,0.000035935373,0.0001286117,0.00002134613,0.00010671879,0.00003404799,0.00005468237,0.000006236732],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005672042,0.000007762251,0.000013072552,0.00018146039,0.00001598716,8.571068e-7,0.000022422695,0.008276494,0.9860886,0.0008220006,0.00034442698,0.004170208],"study_design_scores_gemma":[0.00061338005,0.000017874065,0.0001794686,0.00009044939,0.000013722409,6.138834e-7,0.000034386998,0.0008952309,0.9876953,0.002662743,0.0076259742,0.00017087763],"about_ca_topic_score_codex":0.000017253482,"about_ca_topic_score_gemma":0.000009954946,"teacher_disagreement_score":0.007381263,"about_ca_system_score_codex":0.00010106836,"about_ca_system_score_gemma":0.000024179899,"threshold_uncertainty_score":0.6712733},"labels":[],"label_agreement":null},{"id":"W4412139627","doi":"10.1002/adma.202507459","title":"Revisiting the Impact of Anion Selection on Sulfur Redox Reaction Kinetics for High Sulfur Loading Lithium–Sulfur Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund; University of Alberta","keywords":"Sulfur; Redox; Kinetics; Materials science; Lithium (medication); Ion; Inorganic chemistry; Polysulfide; Lithium–sulfur battery; Electrochemistry; Chemistry; Electrode; Organic chemistry; Electrolyte; Metallurgy; Physical chemistry","score_opus":0.009277328874236646,"score_gpt":0.262169028922487,"score_spread":0.25289170004825035,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412139627","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9883611,0.000106098254,0.00842394,0.00022652141,0.0012752003,0.0006067839,0.00015194248,0.00060065114,0.00024771318],"genre_scores_gemma":[0.99622166,0.0002678872,0.0028455616,0.000027802107,0.00027025994,0.000159016,0.00005671953,0.00005723958,0.00009386075],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985478,0.000048337755,0.00060570077,0.00029244134,0.00013152993,0.0003741837],"domain_scores_gemma":[0.9990024,0.00021884016,0.00023599474,0.00036001168,0.00016079728,0.000021940212],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00031775248,0.0003149783,0.00048605635,0.00016426454,0.00014516505,0.000086755965,0.00019898862,0.00015421798,0.00003054242],"category_scores_gemma":[0.0003138621,0.00023946106,0.00008515754,0.00027382787,0.00006229611,0.00030119857,0.000055397144,0.00010663052,0.00000442844],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019975739,0.000012881279,0.00002497449,0.00031274985,0.000054738273,6.277947e-7,0.000028899669,0.0076482594,0.9816921,0.002092261,0.00025416462,0.0076786233],"study_design_scores_gemma":[0.00042183188,0.00021665443,0.0024390083,0.00039319805,0.000033048294,0.0000054166467,0.00008152256,0.000052758944,0.9889335,0.0061122193,0.0010879402,0.00022290608],"about_ca_topic_score_codex":0.000034165434,"about_ca_topic_score_gemma":0.0000025792478,"teacher_disagreement_score":0.007860505,"about_ca_system_score_codex":0.00025488462,"about_ca_system_score_gemma":0.000019087065,"threshold_uncertainty_score":0.97649384},"labels":[],"label_agreement":null},{"id":"W4412654256","doi":"10.1002/adma.202418707","title":"Mechanochemistry for Metal–Organic Frameworks and Covalent–Organic Frameworks (MOFs, COFs): Methods, Materials, and Mechanisms","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"Natural Sciences and Engineering Research Council of Canada; Fonds de recherche du Québec – Nature et technologies; Leverhulme Trust","keywords":"Mechanochemistry; Metal-organic framework; Materials science; Nanotechnology; Covalent bond; Organic chemistry; Chemistry","score_opus":0.019994382808357233,"score_gpt":0.3299655418813233,"score_spread":0.3099711590729661,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412654256","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00014090192,0.83095276,0.16240992,0.00014580897,0.0012055548,0.0019444946,0.0026721326,0.00037391298,0.00015453645],"genre_scores_gemma":[0.0001767841,0.83793586,0.15552127,0.00023194276,0.000524252,0.0025489905,0.001058856,0.0003816698,0.0016203743],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99354047,0.0003433667,0.0023225073,0.002260978,0.00044674505,0.0010859184],"domain_scores_gemma":[0.9926011,0.002932326,0.0017109286,0.0021129716,0.00027015753,0.00037252108],"candidate_categories":["metaepi_narrow","research_integrity","insufficient_payload"],"consensus_categories":["metaepi_narrow"],"category_scores_codex":[0.0016830772,0.0017412886,0.005277584,0.00020040733,0.00049179356,0.0005861992,0.0010784675,0.0060681007,0.008358423],"category_scores_gemma":[0.0029438732,0.0016099002,0.00045111513,0.00045336215,0.00021714535,0.00022092341,0.0008862346,0.0016260146,0.00003796327],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037237354,0.00009119604,1.7422032e-8,0.042616446,0.0006427472,0.000004255421,0.000021765652,1.06965196e-7,0.7329447,0.013536331,0.00024618258,0.209859],"study_design_scores_gemma":[0.00039998643,0.000026121974,5.1932002e-8,0.014800618,0.0029975676,0.000070062284,0.00006895967,0.000001217496,0.653099,0.04375135,0.28358307,0.0012019804],"about_ca_topic_score_codex":0.0000058331943,"about_ca_topic_score_gemma":0.0000015963545,"teacher_disagreement_score":0.2833369,"about_ca_system_score_codex":0.00023711112,"about_ca_system_score_gemma":0.00036872592,"threshold_uncertainty_score":0.9995333},"labels":[],"label_agreement":null},{"id":"W4412689732","doi":"10.1002/adma.202508694","title":"State of the Art, Insights and Perspectives for Bio‐Inspired Liquid Crystal Elastomer Soft Actuators","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"State Key Laboratory of Polymer Materials Engineering; Department of Science and Technology of Sichuan Province; National Natural Science Foundation of China","keywords":"Soft robotics; Biomimetics; Morphing; Nanotechnology; Actuator; Biomimetic materials; Smart material; Materials science; Artificial muscle; Elastomer; Field (mathematics); Soft materials; Mechanical engineering; Robotics; Computer science; Artificial intelligence; Robot; Engineering","score_opus":0.012898083585773754,"score_gpt":0.261359689732129,"score_spread":0.2484616061463552,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412689732","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0014672483,0.98553544,0.006769648,0.000005703515,0.0024872834,0.002035943,0.0014143719,0.0001842947,0.000100089506],"genre_scores_gemma":[0.0012766925,0.99571776,0.0018911263,0.000009207981,0.000101720056,0.0004407312,0.000052229327,0.00011854072,0.0003919599],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9983452,0.000059426013,0.00072845654,0.00038483858,0.00014658233,0.0003354723],"domain_scores_gemma":[0.99889517,0.00017777157,0.00032482037,0.00043512107,0.00010688064,0.000060244645],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014076731,0.00052820274,0.0016549119,0.00013909147,0.00008228342,0.000039192597,0.00025932625,0.00018511589,0.000026389527],"category_scores_gemma":[0.00016552553,0.00036787297,0.00021000419,0.00016825309,0.00007248404,0.00016949933,0.00014795513,0.000091362395,0.0000042741194],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026362247,0.00007326069,1.1106108e-8,0.12319607,0.00066354603,0.0000042175384,0.00079653994,0.0005194703,0.20948859,0.0038204086,0.00041547307,0.6607588],"study_design_scores_gemma":[0.00033606743,0.000102064616,1.2065637e-7,0.0068332436,0.00032287132,0.0000049145624,0.000040949144,0.0000030909457,0.07699093,0.0013913005,0.91352975,0.0004446904],"about_ca_topic_score_codex":7.0293424e-7,"about_ca_topic_score_gemma":0.0000032380958,"teacher_disagreement_score":0.9131143,"about_ca_system_score_codex":0.0001124164,"about_ca_system_score_gemma":0.00011234193,"threshold_uncertainty_score":0.99987733},"labels":[],"label_agreement":null},{"id":"W4412756100","doi":"10.1002/adma.202509486","title":"Recent Advances in Reactive Microdroplets for Clean Water and Energy","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Catalytic Processes in Materials Science","field":"Materials Science","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Materials science; Nanotechnology; Environmentally friendly; Microreactor; Hydrogen production; Process engineering; Hydrogen; Catalysis; Organic chemistry; Chemistry","score_opus":0.017019576368888113,"score_gpt":0.3266813328068815,"score_spread":0.3096617564379934,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412756100","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00031468272,0.99306345,0.0003540338,0.00003828271,0.0036876285,0.001082508,0.0009660906,0.00011435308,0.00037900024],"genre_scores_gemma":[0.000046531586,0.9943301,0.002821051,0.0001120642,0.00021223038,0.0014733719,0.00035877118,0.00007834271,0.00056755304],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99557036,0.00022354227,0.0014141693,0.0014996018,0.0003384609,0.00095383666],"domain_scores_gemma":[0.9977525,0.00055705535,0.0005763511,0.00077508367,0.00022393053,0.00011511884],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0014847455,0.0007580972,0.0027647407,0.00036008094,0.00016242175,0.0003070844,0.0009183461,0.00033251694,0.00028391395],"category_scores_gemma":[0.00078273483,0.0005508524,0.0001184007,0.00029121817,0.0002913184,0.00089922745,0.00063458225,0.00010022403,0.000044824646],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009938066,0.000040201667,2.0905937e-8,0.018441511,0.000007264148,0.000010570343,0.000044266977,0.0000024274416,0.20367397,0.0006229254,0.00007872107,0.77697873],"study_design_scores_gemma":[0.00029740206,0.00004653356,4.9474625e-8,0.0059758355,0.000090987836,0.00002719906,0.000015583406,1.5803157e-7,0.33176532,0.0020268436,0.6593059,0.00044824666],"about_ca_topic_score_codex":0.00001587112,"about_ca_topic_score_gemma":0.00005166633,"teacher_disagreement_score":0.7765305,"about_ca_system_score_codex":0.00033046232,"about_ca_system_score_gemma":0.0003594339,"threshold_uncertainty_score":0.9996943},"labels":[],"label_agreement":null},{"id":"W4412881934","doi":"10.1002/adma.202509812","title":"Fully Reshapeable and Recyclable Protein Hydrogels","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Self-healing hydrogels; Materials science; Disulfide bond; Nanotechnology; Polymer; Folding (DSP implementation); Soft materials; Chemical engineering; Composite material; Chemistry; Polymer chemistry; Mechanical engineering; Engineering","score_opus":0.003542935807449573,"score_gpt":0.20249527382195906,"score_spread":0.19895233801450948,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412881934","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9764249,0.0012034386,0.01003859,0.000080450176,0.0013584069,0.00071369315,0.00006398078,0.000704985,0.0094115855],"genre_scores_gemma":[0.9669818,0.00066925667,0.028169358,0.00014757302,0.00008373376,0.00029449715,0.000017609362,0.00006543065,0.0035707194],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99903274,0.000020317073,0.00029569288,0.00023386287,0.000089898975,0.00032751606],"domain_scores_gemma":[0.99958533,0.000018606972,0.00003813819,0.00025943507,0.000043584805,0.000054925466],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019798329,0.0001943999,0.0003053039,0.00006699098,0.00007761266,0.00006740266,0.00010559529,0.00009072048,0.00016704459],"category_scores_gemma":[0.000060355844,0.00019410638,0.000016957405,0.00011478849,0.000022213237,0.00026305052,0.00006991375,0.00005166077,0.0000336353],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003471537,0.0000064748388,3.6211344e-7,0.00025286965,0.000013753275,0.0000041934168,0.000012634215,0.00066387426,0.9827636,0.011524947,0.0002764662,0.0044461396],"study_design_scores_gemma":[0.0003956694,0.000023677414,0.000004094672,0.00014833322,0.0000094565585,0.0000029028536,0.000017894932,0.00007055261,0.88260555,0.025967536,0.090577185,0.00017716318],"about_ca_topic_score_codex":0.000005405078,"about_ca_topic_score_gemma":0.000003937407,"teacher_disagreement_score":0.100158036,"about_ca_system_score_codex":0.000055869823,"about_ca_system_score_gemma":0.000018607212,"threshold_uncertainty_score":0.7915428},"labels":[],"label_agreement":null},{"id":"W4412956587","doi":"10.1002/adma.202508666","title":"Ion Valency as a Molecular Switch for Salt‐Resistant Underwater Adhesion","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Analytical Chemistry and Sensors","field":"Chemical Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal; Université de Montréal","funders":"Institut TransMedTech; Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"Adhesion; Materials science; Ion; Molecular dynamics; Chemical physics; Ionic bonding; Valency; Nanotechnology; Peptide; Cationic polymerization; Biophysics; Chemistry; Computational chemistry; Polymer chemistry; Composite material; Organic chemistry; Biochemistry","score_opus":0.007716142519768388,"score_gpt":0.26524231960171757,"score_spread":0.2575261770819492,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412956587","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9571379,0.00015097787,0.036934223,0.0004278746,0.0002766387,0.00031642907,0.00003586222,0.00018455637,0.0045355796],"genre_scores_gemma":[0.9927272,0.000026088144,0.0025142932,0.00022526494,0.000057789737,0.000060084636,0.00003750425,0.00002492896,0.004326833],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895865,0.00001291034,0.00031046884,0.00029278817,0.00013308099,0.00029208572],"domain_scores_gemma":[0.99947,0.00009889384,0.000046425022,0.00024220701,0.00007738188,0.00006509673],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011155969,0.00017232847,0.00026779776,0.000032030985,0.000054544318,0.000026000698,0.00013269458,0.00012343825,0.00029340942],"category_scores_gemma":[0.00033298472,0.0001534571,0.000082986546,0.00008680744,0.000022394664,0.000066950226,0.00004643851,0.000056505574,0.000046827983],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024334386,0.000023885012,7.787385e-7,0.000325129,0.00002658101,0.000007857509,0.00001107271,0.0002854476,0.98692805,0.011869741,0.00007699124,0.00020112658],"study_design_scores_gemma":[0.00053740793,0.000032574153,0.000004008602,0.00013191569,0.000042377058,0.0000010410399,0.000021226706,0.00015991053,0.97461313,0.018290829,0.0059928205,0.00017276975],"about_ca_topic_score_codex":0.000007639926,"about_ca_topic_score_gemma":4.460084e-7,"teacher_disagreement_score":0.035589356,"about_ca_system_score_codex":0.00007842559,"about_ca_system_score_gemma":0.000022439985,"threshold_uncertainty_score":0.62577987},"labels":[],"label_agreement":null},{"id":"W4413030199","doi":"10.1002/adma.202418352","title":"Microneedle Delivery of Small Extracellular Vesicles From Young Blood to Treat Endothelial Senescence","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Extracellular vesicles in disease","field":"Biochemistry, Genetics and Molecular Biology","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"National Cancer Institute; National Institutes of Health; American Heart Association","keywords":"Senescence; Extracellular vesicle; Inflammation; Extracellular vesicles; Biology; Endothelial stem cell; Pharmacology; Cell biology; Immunology; Biochemistry; Gene; Microvesicles","score_opus":0.005729092070400277,"score_gpt":0.22552748303213016,"score_spread":0.21979839096172987,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413030199","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99139524,0.003708217,0.0032638693,0.0000337443,0.0004108202,0.0003421723,0.00055001985,0.000025418758,0.00027047872],"genre_scores_gemma":[0.9841598,0.0002750918,0.013757522,0.000120149176,0.00014261136,0.000043502667,0.00015844192,0.00003231138,0.0013105635],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99863183,0.0000854375,0.00040203735,0.00048652577,0.00011718782,0.00027697423],"domain_scores_gemma":[0.9990266,0.000026538466,0.00012398743,0.0006124757,0.000119069,0.00009133961],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014376722,0.00022343342,0.00028157735,0.000056882982,0.00005282537,0.000027884676,0.00033850412,0.00012760115,0.00006146011],"category_scores_gemma":[0.00012695814,0.000237333,0.00008350065,0.000088782836,0.00007930828,0.000007554186,0.00020799038,0.00003494713,0.000019882673],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00047802157,0.00014942553,0.0004401862,0.00007114449,0.000055036795,0.000017473305,0.00004150674,0.00006495988,0.99680275,0.00010257615,0.00010915596,0.0016677474],"study_design_scores_gemma":[0.0009565299,0.00010152153,0.00066100166,0.0000858405,0.00010111984,0.000003147333,0.000061393424,0.0000012225726,0.99561495,0.00031444468,0.0018790537,0.0002197859],"about_ca_topic_score_codex":0.00012362807,"about_ca_topic_score_gemma":0.00002574729,"teacher_disagreement_score":0.010493653,"about_ca_system_score_codex":0.000017870141,"about_ca_system_score_gemma":0.00008734497,"threshold_uncertainty_score":0.9678159},"labels":[],"label_agreement":null},{"id":"W4413048784","doi":"10.1002/adma.202511662","title":"Dynamic Confinement and High‐Entropy Catalytic Synergy Engineering in Hollow Nano‐Metal‐Organic Frameworks","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"National Natural Science Foundation of China","keywords":"Materials science; Nano-; Nanotechnology; Catalysis; Metal-organic framework; Metal; Entropy (arrow of time); Thermodynamics; Physical chemistry; Metallurgy; Adsorption; Composite material; Organic chemistry","score_opus":0.003329329294769187,"score_gpt":0.21612412554987398,"score_spread":0.21279479625510478,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413048784","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939825,0.0007585093,0.00377366,0.00046949476,0.00030242556,0.0001914535,0.000043635035,0.00011977124,0.00035855366],"genre_scores_gemma":[0.9944965,0.00042902166,0.0036379255,0.0001301646,0.000033282784,0.00018825961,0.00006158595,0.000041133233,0.0009820911],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99852836,0.000015382016,0.00050955,0.0004512612,0.00014840053,0.00034704752],"domain_scores_gemma":[0.99905217,0.00017604971,0.00012660447,0.000540845,0.00003837518,0.00006593294],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016681895,0.00026545252,0.00047581474,0.00009879839,0.000066239,0.00007948281,0.00022752576,0.00029959632,0.0018696854],"category_scores_gemma":[0.00031346595,0.0002662306,0.00003979577,0.0002318435,0.000042720243,0.000086421634,0.00012859191,0.000221557,0.000026915714],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016308062,0.000054090477,0.000016154061,0.0001827753,0.000050194067,0.000004113587,0.000020983209,0.0001649344,0.9872493,0.009456561,0.000027592501,0.00275699],"study_design_scores_gemma":[0.0006425068,0.00000846446,0.0003763178,0.00042092602,0.00005705555,0.0000033059669,0.00005263675,0.00025120244,0.99265707,0.002084038,0.0031795085,0.00026698905],"about_ca_topic_score_codex":0.000037757545,"about_ca_topic_score_gemma":0.000019433122,"teacher_disagreement_score":0.007372523,"about_ca_system_score_codex":0.00013398833,"about_ca_system_score_gemma":0.000040474195,"threshold_uncertainty_score":0.999979},"labels":[],"label_agreement":null},{"id":"W4413099762","doi":"10.1002/adma.202508740","title":"Electrostatically Enhanced Buried Interface Binding of Self‐Assembled Monolayers for Efficient And Stable Inverted Perovskite Solar Cells","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Office of Energy Efficiency; Solar Energy Technologies Office; Basic Energy Sciences; Division of Chemistry; Argonne National Laboratory; U.S. Department of Energy; Office of Energy Efficiency and Renewable Energy; International Institute for Nanotechnology, Northwestern University; Division of Electrical, Communications and Cyber Systems; Materials Research Science and Engineering Center, Harvard University; King Abdullah University of Science and Technology; Northwestern University; Division of Materials Research; Office of Science; National Science Foundation","keywords":"Materials science; Perovskite (structure); Monolayer; Dipole; Self-assembled monolayer; Binding energy; Energy conversion efficiency; Electron mobility; Thermal stability; HOMO/LUMO; Chemical physics; Chemical engineering; Nanotechnology; Molecule; Optoelectronics; Crystallography; Organic chemistry; Chemistry","score_opus":0.00415407272757094,"score_gpt":0.23363544950418966,"score_spread":0.22948137677661873,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413099762","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.90270436,0.00008685867,0.09559001,0.00003763846,0.0003236668,0.0007205416,0.00012505316,0.00021274945,0.0001991358],"genre_scores_gemma":[0.986369,0.00016371814,0.013058392,0.000030291552,0.000019050089,0.00026003548,0.000018334596,0.000037235688,0.000043915665],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988168,0.000023376917,0.00046648248,0.00025828244,0.00009033842,0.00034471662],"domain_scores_gemma":[0.9993847,0.00011173213,0.00008356236,0.0002321567,0.0001340209,0.000053850115],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021718454,0.00020888662,0.00041875403,0.000115284245,0.00008131403,0.000073014235,0.00013512412,0.00008073146,0.000025954694],"category_scores_gemma":[0.00004788038,0.00021067676,0.000033112745,0.000179845,0.000018691047,0.000094457486,0.000050209474,0.000042480435,0.0000059223034],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007561664,0.00003250648,6.326156e-7,0.00044745288,0.000056386896,1.530667e-7,0.00018016361,0.006499833,0.9916349,0.00059831556,0.00012056766,0.00035343907],"study_design_scores_gemma":[0.00080075546,0.00005268804,0.00002190422,0.000103700906,0.000045858564,3.6118533e-7,0.00007031428,0.0037252968,0.9931853,0.00037199774,0.0014338639,0.00018798065],"about_ca_topic_score_codex":0.000007099722,"about_ca_topic_score_gemma":0.0000023380585,"teacher_disagreement_score":0.08366468,"about_ca_system_score_codex":0.00007956141,"about_ca_system_score_gemma":0.000031351716,"threshold_uncertainty_score":0.85911494},"labels":[],"label_agreement":null},{"id":"W4413100924","doi":"10.1002/adma.202505101","title":"Overcoming Material Incompatibility via 2D Free‐Surface Engineering","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanowire Synthesis and Applications","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut interdisciplinaire d'innovation technologique; Université de Sherbrooke","funders":"","keywords":"Materials science; Microelectronics; Heterojunction; Dislocation; Wafer; Epitaxy; Optoelectronics; Photoluminescence; Nanotechnology; Free surface; Composite material","score_opus":0.004140833373948969,"score_gpt":0.21536063678109596,"score_spread":0.211219803407147,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413100924","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9768037,0.00009009,0.019326804,0.000060068367,0.0014667343,0.00030229866,0.00014065998,0.0006319092,0.0011777411],"genre_scores_gemma":[0.9849527,0.000035338624,0.014725806,0.000023513063,0.000086994936,0.000066119304,0.00001717133,0.000034964523,0.00005741062],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99901587,0.000017263068,0.0003713424,0.00022377347,0.00010507821,0.0002666674],"domain_scores_gemma":[0.999267,0.000073014475,0.000034637083,0.0005460644,0.000035357298,0.00004394483],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019368721,0.00019780373,0.00030594997,0.00004892508,0.00006469739,0.000064171065,0.0002496477,0.00007825494,0.00024153954],"category_scores_gemma":[0.000061322586,0.00020839022,0.00003931069,0.00015046207,0.000016992266,0.00016919793,0.00009150156,0.000053517586,0.00003826571],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009904408,0.000012946567,0.000018082867,0.00013317319,0.000020010424,6.1318286e-7,0.000016031938,0.015461076,0.9808436,0.001139256,0.00031496584,0.0020303521],"study_design_scores_gemma":[0.00022917468,0.00000481154,0.00079726643,0.00007149141,0.000013993713,8.4379013e-7,0.0000058727815,0.0011630482,0.984016,0.0017034463,0.01179616,0.0001978888],"about_ca_topic_score_codex":0.000024082578,"about_ca_topic_score_gemma":0.000005114083,"teacher_disagreement_score":0.014298028,"about_ca_system_score_codex":0.00011635482,"about_ca_system_score_gemma":0.000012373791,"threshold_uncertainty_score":0.84979063},"labels":[],"label_agreement":null},{"id":"W4413137510","doi":"10.1002/adma.202509060","title":"Photothermal Boost of Laser‐Synthesized TiC Colloidal Variants with Engineered Solid‐State Interfaces and Nitridation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Laser-Ablation Synthesis of Nanoparticles","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Photothermal therapy; Materials science; Nanotechnology; Laser; Colloid; Solid-state; Photothermal effect; Chemical engineering; Engineering physics; Optics","score_opus":0.0040862284896908425,"score_gpt":0.21006372085631472,"score_spread":0.20597749236662388,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413137510","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973841,0.00006939605,0.0015110439,0.000031027306,0.00015966441,0.0002972931,0.00008209227,0.0001605162,0.00030486585],"genre_scores_gemma":[0.9970097,0.00006654133,0.0026620096,0.00001553465,0.0000109349985,0.00004780388,0.0000053401886,0.000029742194,0.00015242708],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99916434,0.000037142883,0.00033847347,0.0001553479,0.00011918142,0.00018551546],"domain_scores_gemma":[0.9994693,0.00017451213,0.00007297728,0.00017607743,0.00007043461,0.000036736743],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017908691,0.00016152888,0.00032357775,0.000107806925,0.000031553696,0.00004639769,0.000089643865,0.000043054974,0.00012295306],"category_scores_gemma":[0.000109254695,0.0001434287,0.000013510483,0.0001353276,0.00004899272,0.00027997335,0.0000238,0.000029976243,0.0000114788445],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023360776,0.000019901167,0.000053520183,0.0001455995,0.00006964248,0.000001833676,0.00008012285,0.014871037,0.98324364,0.000019083609,0.000029062337,0.0012329577],"study_design_scores_gemma":[0.00094086194,0.00003677712,0.0021625278,0.00018124022,0.000034529534,0.0000021218802,0.00003688474,0.00052650983,0.99560726,0.00014452152,0.00018277184,0.00014400897],"about_ca_topic_score_codex":0.0000071385116,"about_ca_topic_score_gemma":0.0000070500323,"teacher_disagreement_score":0.014344526,"about_ca_system_score_codex":0.000034625027,"about_ca_system_score_gemma":0.00002251822,"threshold_uncertainty_score":0.58488524},"labels":[],"label_agreement":null},{"id":"W4413258403","doi":"10.1002/adma.202508100","title":"Genetic Surfaceome <i>E. coli</i> Reprogramming Enables Selective Water Oxidation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Microbial Metabolic Engineering and Bioproduction","field":"Biochemistry, Genetics and Molecular Biology","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Allergy and Infectious Diseases; Army Research Office; University of California, San Francisco; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; Fundação de Amparo à Pesquisa do Estado de São Paulo; National Institute of General Medical Sciences; Canadian Institute for Advanced Research; National Institutes of Health; National Science Foundation","keywords":"Reprogramming; Materials science; Nanotechnology; Biology; Genetics; Gene","score_opus":0.0027637816368116406,"score_gpt":0.216424395123411,"score_spread":0.21366061348659934,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413258403","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99416775,0.00040332173,0.0041000736,0.00008494781,0.0007876147,0.00025211956,0.000008295426,0.00004458813,0.00015127187],"genre_scores_gemma":[0.99254465,0.00025437927,0.005375969,0.00009650618,0.00020650195,0.00004954404,0.000099517325,0.000015138345,0.0013578167],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991691,0.000036654837,0.00019047294,0.0003339797,0.000056019617,0.00021374758],"domain_scores_gemma":[0.9995787,0.0000016188843,0.000036518275,0.00024551817,0.00011573781,0.000021898422],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018828463,0.00012282486,0.00013661558,0.00004008837,0.000069380614,0.000032610515,0.0000763188,0.00008566968,0.000016123588],"category_scores_gemma":[0.000070099806,0.00010161397,0.000028191751,0.00007976674,0.000024441862,0.0000058201026,0.00004864461,0.00002729349,0.000012031903],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000065156964,0.00001795402,0.000019090005,0.000039319566,0.000026102114,4.2821327e-7,0.000014483379,0.0005798778,0.9964584,0.00003794501,0.00035874054,0.0023824929],"study_design_scores_gemma":[0.0002307455,0.00004334182,0.0003776096,0.000016266149,0.000014830248,0.000003946361,0.000010347069,7.493198e-7,0.9047365,0.000110944304,0.0943393,0.000115410076],"about_ca_topic_score_codex":0.000019093453,"about_ca_topic_score_gemma":0.0000050763665,"teacher_disagreement_score":0.093980566,"about_ca_system_score_codex":0.00001809609,"about_ca_system_score_gemma":0.000020748652,"threshold_uncertainty_score":0.41436976},"labels":[],"label_agreement":null},{"id":"W4413472887","doi":"10.1002/adma.202514035","title":"Heteroatom‐Modulated Asymmetric Cobalt Single‐Atom Catalysts on MOF‐Derived Carbon Enabling Durable Zinc‐Iodine Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Materials science; Heteroatom; Cobalt; Catalysis; Zinc; Carbon fibers; Atom (system on chip); Nanotechnology; Chemical engineering; Inorganic chemistry; Organic chemistry; Metallurgy; Composite material; Chemistry; Ring (chemistry)","score_opus":0.01333149573638457,"score_gpt":0.2550351697358208,"score_spread":0.24170367399943624,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413472887","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9889594,0.0008459523,0.0022089123,0.00027771297,0.0013952323,0.0006947727,0.000095289164,0.0022775042,0.0032452573],"genre_scores_gemma":[0.99621934,0.0005554186,0.0021797782,0.0001501428,0.000057519916,0.00022063803,0.000098941804,0.000117399104,0.00040079493],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970519,0.00007536941,0.00073283823,0.00067819393,0.00045185126,0.0010098299],"domain_scores_gemma":[0.99833524,0.00022864892,0.00012082397,0.0010326809,0.00018188295,0.00010073994],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025734966,0.00055269455,0.0007806978,0.000948294,0.00017014255,0.00016837042,0.0005948461,0.00028424402,0.00005574798],"category_scores_gemma":[0.0004516696,0.00055999705,0.000072883326,0.0014546458,0.00014866579,0.00039558453,0.00030156565,0.00031324607,0.000084794374],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013570694,0.000052951178,0.00004062924,0.00029070108,0.000096441014,0.00004825338,0.00002396838,0.013030124,0.97625774,0.00015306997,0.00028836998,0.009582027],"study_design_scores_gemma":[0.001004386,0.0001263745,0.00029988211,0.0002735823,0.000020834528,0.000008758053,0.00007338315,0.00034452532,0.9889077,0.0008337678,0.007612825,0.00049398857],"about_ca_topic_score_codex":0.00006711173,"about_ca_topic_score_gemma":0.000023435825,"teacher_disagreement_score":0.012685599,"about_ca_system_score_codex":0.00071990705,"about_ca_system_score_gemma":0.000032532527,"threshold_uncertainty_score":0.99968517},"labels":[],"label_agreement":null},{"id":"W4413675210","doi":"10.1002/adma.202512332","title":"Pd Single‐Atoms Doped Cu <sub>3</sub> P Quantum Dots with Moderately Optimized H* Sorption Behaviors for Actualizing the Multifunctional “Formaldehyde‐Nitrate” Galvanic System","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ammonia Synthesis and Nitrogen Reduction","field":"Chemical Engineering","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Alberta","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; National Natural Science Foundation of China","keywords":"Materials science; Galvanic cell; Bifunctional; Anode; Sorption; Formaldehyde; Faraday efficiency; Nitrate; Bimetallic strip; Graphene; Electrode; Catalysis; Nanotechnology; Physical chemistry; Metallurgy; Chemistry; Adsorption; Organic chemistry","score_opus":0.014560770978435356,"score_gpt":0.23652539143137682,"score_spread":0.22196462045294146,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413675210","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9291681,0.00013404939,0.06825434,0.000077300974,0.00088132964,0.000968824,0.0000784021,0.0003489828,0.00008866394],"genre_scores_gemma":[0.9949057,0.000027787439,0.0039869905,0.000043915905,0.00017820284,0.00061201275,0.00010242728,0.00007477681,0.000068153895],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980996,0.000073720024,0.00062204397,0.00044419328,0.00028497976,0.00047541407],"domain_scores_gemma":[0.9988951,0.000185254,0.00027219806,0.00033472804,0.00024239482,0.000070311435],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040029103,0.00037020203,0.0004944902,0.00010298999,0.00035640152,0.0001591123,0.00018469215,0.00016683649,0.000026569243],"category_scores_gemma":[0.000093444825,0.00026412716,0.00012846765,0.00018596857,0.00006478851,0.00046710687,0.000045052595,0.00012484839,0.00002004235],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018100637,0.00007070013,0.0000013566788,0.0002127111,0.00011158496,0.0000018265632,0.00007179539,0.01790892,0.9750725,0.0035164612,0.000023855879,0.0011982088],"study_design_scores_gemma":[0.0015948539,0.00007299445,0.000025290436,0.00031753475,0.00021000156,0.00002269912,0.0005668344,0.01123284,0.98534393,0.000130959,0.00016591312,0.00031616274],"about_ca_topic_score_codex":0.000020682055,"about_ca_topic_score_gemma":0.0000048397496,"teacher_disagreement_score":0.06573763,"about_ca_system_score_codex":0.00032615138,"about_ca_system_score_gemma":0.000067323694,"threshold_uncertainty_score":0.9999811},"labels":[],"label_agreement":null},{"id":"W4413715884","doi":"10.1002/adma.202510392","title":"Visualization of Thermal‐Induced Degradation Pathways of High‐Ni Cathode: a Comparative Study in Solid Chloride and Liquid Electrolytes","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Shenzhen Science and Technology Innovation Program; Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China; National Science and Technology Council","keywords":"Electrolyte; Materials science; Chemical engineering; Cathode; Oxide; Thermal stability; Lithium (medication); Electrode; Chemistry; Metallurgy; Physical chemistry","score_opus":0.021744006958367135,"score_gpt":0.3086257977653549,"score_spread":0.2868817908069878,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413715884","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964395,0.00007288411,0.0020586806,0.000004326669,0.0004472776,0.0007689985,0.00003754806,0.00006686428,0.00010392986],"genre_scores_gemma":[0.9990073,0.000055237,0.0007066503,0.000012023219,0.000017749118,0.00013906453,0.000030212183,0.000022351918,0.000009451968],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986794,0.00010761975,0.0006932393,0.00020066611,0.0001354641,0.00018358276],"domain_scores_gemma":[0.9994166,0.000079301,0.00018609958,0.00020852007,0.00009420245,0.00001527026],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003127161,0.00018740621,0.00059661054,0.00018126302,0.000023521636,0.000014718195,0.0001072521,0.000052540796,0.000024419349],"category_scores_gemma":[0.00006322061,0.00018942797,0.000009004149,0.00020878992,0.00002880661,0.00027439394,0.00005120057,0.000032638494,0.0000010963278],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040872782,0.00009972767,0.00014183947,0.00018014044,0.000037824837,6.731711e-7,0.00081167027,0.00444097,0.99260616,0.0010663078,0.0000024854821,0.00020345444],"study_design_scores_gemma":[0.0010088666,0.00030766195,0.005624242,0.00013062649,0.00002316735,3.3829207e-7,0.00026029153,0.0000415358,0.99175406,0.00071056024,0.0000033006459,0.0001353497],"about_ca_topic_score_codex":0.000038759783,"about_ca_topic_score_gemma":0.000024189914,"teacher_disagreement_score":0.0054824026,"about_ca_system_score_codex":0.00007227144,"about_ca_system_score_gemma":0.000020457315,"threshold_uncertainty_score":0.7724648},"labels":[],"label_agreement":null},{"id":"W4413799370","doi":"10.1002/adma.202509980","title":"Bionic Nanogel Interfaces Unlock Long‐Term Stability in Zn Metal Electrodeposition‐Based Electrochromic Windows","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Science Foundation of Jiangsu Province; National Natural Science Foundation of China","keywords":"Electrochromism; Materials science; Nanogel; Nanotechnology; Metal; Term (time); Chemical engineering; Metallurgy; Electrode","score_opus":0.009545159560933242,"score_gpt":0.27166445180315846,"score_spread":0.2621192922422252,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413799370","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9793797,0.00079644454,0.017438445,0.00012304081,0.00035612864,0.00073199655,0.00004204609,0.0008657595,0.00026644798],"genre_scores_gemma":[0.9970324,0.00019860502,0.0022471338,0.000054087635,0.000017465318,0.00030766564,0.000046847523,0.000048120128,0.000047645502],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978654,0.00008926148,0.0005594272,0.0004817985,0.00022422695,0.0007799285],"domain_scores_gemma":[0.9990607,0.000119700984,0.000059914397,0.00063699926,0.00007983662,0.000042885997],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027670094,0.00033361607,0.00050727406,0.00043211022,0.00007060863,0.00006974338,0.0005010299,0.0001761533,0.00023599301],"category_scores_gemma":[0.00014970185,0.00034073237,0.00005591498,0.0006790821,0.00011923171,0.00039000754,0.00013743386,0.00029440544,0.00004526894],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015396134,0.000055843822,0.0003902063,0.00024102775,0.000037745944,0.00001276604,0.000013069,0.0047339406,0.9911277,0.000087139815,0.00001883983,0.0031277547],"study_design_scores_gemma":[0.0008995908,0.0001087292,0.0029999914,0.00013351768,0.000012096775,0.0000042641295,0.000018560211,0.0002699458,0.9939093,0.0012983717,0.000058797046,0.0002868314],"about_ca_topic_score_codex":0.000008887087,"about_ca_topic_score_gemma":0.00011175202,"teacher_disagreement_score":0.017652739,"about_ca_system_score_codex":0.0009008764,"about_ca_system_score_gemma":0.00008658279,"threshold_uncertainty_score":0.99990445},"labels":[],"label_agreement":null},{"id":"W4413876817","doi":"10.1002/adma.202509150","title":"Generalizable Porous Aromatic Framework‐Included Polymer Membranes for Diffusion‐Enhanced Gas Separations","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Membrane Separation and Gas Transport","field":"Engineering","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Philomathia Foundation; National Science Foundation","keywords":"Materials science; Membrane; Polymer; Porosity; Diffusion; Porous medium; Gaseous diffusion; Chemical engineering; Gas separation; Synthetic membrane; Nanotechnology; Polymer science; Polymer chemistry; Composite material; Thermodynamics; Fuel cells","score_opus":0.00859690858511575,"score_gpt":0.2668011968775393,"score_spread":0.25820428829242353,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413876817","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.81508553,0.0010279601,0.17482696,0.00027757284,0.0023365084,0.0009775453,0.00011466923,0.0007182584,0.004634974],"genre_scores_gemma":[0.9781374,0.00058248994,0.015371217,0.00053424604,0.00013105184,0.0006009671,0.00022942094,0.00005809329,0.0043551205],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99864024,0.000025535443,0.0005522058,0.00026884902,0.00015592965,0.000357266],"domain_scores_gemma":[0.9993229,0.00010324891,0.00006316853,0.0003777116,0.00006159209,0.00007138372],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013726705,0.00026383033,0.0004366292,0.00012398737,0.00017487709,0.00007295132,0.00017294382,0.00014673946,0.00051885954],"category_scores_gemma":[0.00005272614,0.000260756,0.000074553915,0.00021117859,0.00002958436,0.00022148725,0.000014701417,0.000059848626,0.000050795177],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000055596975,0.00003329109,0.000002064166,0.00050590746,0.00005339724,0.0000013249901,0.00017395194,0.021225993,0.97225887,0.00463264,0.00065738586,0.00039958992],"study_design_scores_gemma":[0.0007946214,0.00002299225,0.000039692797,0.00013077763,0.00005227456,0.0000018207809,0.000031749387,0.0009775319,0.9776365,0.009897786,0.010141835,0.00027238758],"about_ca_topic_score_codex":0.0000098716655,"about_ca_topic_score_gemma":0.00002502209,"teacher_disagreement_score":0.16305184,"about_ca_system_score_codex":0.00004936933,"about_ca_system_score_gemma":0.000038341,"threshold_uncertainty_score":0.99998444},"labels":[],"label_agreement":null},{"id":"W4414034080","doi":"10.1002/adma.202507906","title":"Mixed Ionic and Electronic Charge Transport in Conductive Protein Fibers Revealed with DC Electrical Measurements","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fonds de recherche du Québec – Nature et technologies; Johnson and Johnson; Canada Research Chairs; Universities Space Research Association; Centre québécois sur les matériaux fonctionnels; Natural Sciences and Engineering Research Council of Canada; CMC Microsystems; Faculty of Engineering, McGill University; McGill University","keywords":"Materials science; Ionic bonding; Electrical conductor; Charge (physics); Electrical resistivity and conductivity; Nanotechnology; Optoelectronics; Ion; Composite material; Electrical engineering; Organic chemistry","score_opus":0.013030924909119071,"score_gpt":0.21935612025290122,"score_spread":0.20632519534378213,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414034080","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99709,0.00031422672,0.0007006296,0.000028495013,0.0002159651,0.00059527054,0.00001571826,0.00024638724,0.0007933251],"genre_scores_gemma":[0.99645144,0.000113025475,0.0026695782,0.000031622916,0.0000221454,0.0002570465,0.000024694784,0.00004697393,0.00038345132],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984649,0.00006721344,0.0003929743,0.00034574667,0.00016476907,0.00056443264],"domain_scores_gemma":[0.999606,0.000027738808,0.000057342284,0.00019684121,0.000055919514,0.00005613557],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002869269,0.0002790351,0.00047729333,0.00014373931,0.000056302884,0.000025594914,0.00010165156,0.000096285294,0.00004704686],"category_scores_gemma":[0.000055810993,0.0002559021,0.000019931347,0.00028032545,0.000046817982,0.00025175716,0.000011255968,0.00011698808,0.000005693223],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002550309,0.000020090087,0.000110713074,0.00014068464,0.000047279944,0.000008666078,0.000041689746,0.003923655,0.9934543,0.0015483685,0.0000087671315,0.000440765],"study_design_scores_gemma":[0.0016662661,0.000097727476,0.002107688,0.0002630781,0.000024416637,0.0000066229363,0.00001537306,0.000028614539,0.99308705,0.0018900887,0.00050423114,0.00030885873],"about_ca_topic_score_codex":0.000021553164,"about_ca_topic_score_gemma":0.000072925264,"teacher_disagreement_score":0.0038950404,"about_ca_system_score_codex":0.00023419812,"about_ca_system_score_gemma":0.000056409946,"threshold_uncertainty_score":0.99998933},"labels":[],"label_agreement":null},{"id":"W4414042078","doi":"10.1002/adma.202513090","title":"Revealing the Neglected Role of Passivation Layers of Current Collectors for Solid‐State Anode‐Free Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Windsor; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Mitacs; Canadian Institutes of Health Research; Western University; Forschungszentrum Jülich; Canadian Light Source","keywords":"Passivation; Electrolyte; Dielectric spectroscopy; Oxide; Anode; Sulfide; Copper; Electrochemistry; Lithium (medication); Metal","score_opus":0.009470929154252463,"score_gpt":0.27126388069331725,"score_spread":0.2617929515390648,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414042078","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9779168,0.00042327426,0.017394433,0.000069277776,0.0023837537,0.0009586318,0.00061492017,0.00012486325,0.000114069066],"genre_scores_gemma":[0.99615824,0.00018487158,0.0030773107,0.000040574883,0.000053310392,0.00031345314,0.000053386277,0.000042744257,0.00007611863],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99857265,0.000056456323,0.00077049417,0.00017864062,0.00015639045,0.0002653599],"domain_scores_gemma":[0.99888676,0.00020974201,0.00025283016,0.00043705333,0.00019574196,0.000017887625],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019543683,0.00020289364,0.00046021165,0.0001139624,0.00007328304,0.000027815446,0.00030339655,0.00004521802,0.00006695378],"category_scores_gemma":[0.00032064153,0.00017193271,0.00003803587,0.00023439065,0.000075958094,0.00019155383,0.00008463628,0.000037775997,0.0000010435709],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014014242,0.000016394217,0.000023486353,0.0006236973,0.000054967913,8.433792e-8,0.00018945397,0.014555322,0.9806578,0.0004566202,0.0009039051,0.002378117],"study_design_scores_gemma":[0.00062827236,0.000040798215,0.00031687345,0.00029553994,0.000032739797,2.665951e-7,0.000077439334,0.00007813411,0.9824886,0.011731607,0.004167967,0.0001418115],"about_ca_topic_score_codex":0.000006024281,"about_ca_topic_score_gemma":0.0000049708206,"teacher_disagreement_score":0.018241452,"about_ca_system_score_codex":0.00008680363,"about_ca_system_score_gemma":0.000032806653,"threshold_uncertainty_score":0.7011212},"labels":[],"label_agreement":null},{"id":"W4414073261","doi":"10.1002/adma.202511556","title":"Structure‐Tunable Fluorinated Polyester Electrolytes with Enhanced Interfacial Stability for Recyclable Solid‐State Lithium Metal Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Alberta Innovates; Alliance de recherche numérique du Canada; China Scholarship Council; National Natural Science Foundation of China; Canada First Research Excellence Fund; University of Alberta","keywords":"Polyester; Electrolyte; Lithium (medication); Ionic conductivity; Ionic bonding; Polymer; Lithium metal; Metal","score_opus":0.004992300041074129,"score_gpt":0.22384863810848005,"score_spread":0.21885633806740593,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414073261","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9572602,0.00016998655,0.03788938,0.0001112324,0.001471277,0.0009603051,0.0005308686,0.0012535363,0.0003532504],"genre_scores_gemma":[0.9882416,0.000078300414,0.010457327,0.00008330359,0.00006176504,0.0004661049,0.00007707645,0.0000838661,0.0004506596],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978447,0.00003940439,0.00061942084,0.0005426175,0.00015556128,0.0007983168],"domain_scores_gemma":[0.9989795,0.000099507706,0.00012371664,0.00054451136,0.00020341422,0.00004931305],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00017884068,0.00050973875,0.00080521306,0.00015731236,0.0001620384,0.00018448771,0.00033043165,0.00016409998,0.00024226026],"category_scores_gemma":[0.00011449189,0.0004245434,0.000055624852,0.00025373112,0.00015700057,0.00069607963,0.000112520305,0.00013352909,0.000008696637],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007411061,0.000021332437,0.000012113955,0.00047096424,0.00013266731,0.0000022701743,0.00007282944,0.0013302198,0.99406403,0.00031309857,0.00012477592,0.0027146067],"study_design_scores_gemma":[0.0010243108,0.00025865276,0.0000878313,0.00011613478,0.000046238307,0.0000039260112,0.000080988684,0.000026852913,0.9828274,0.011714002,0.0033490951,0.0004645181],"about_ca_topic_score_codex":0.000009081685,"about_ca_topic_score_gemma":0.000044011285,"teacher_disagreement_score":0.030981433,"about_ca_system_score_codex":0.00017403292,"about_ca_system_score_gemma":0.000048351132,"threshold_uncertainty_score":0.99982065},"labels":[],"label_agreement":null},{"id":"W4414160563","doi":"10.1002/adma.202508729","title":"Advancing Tomographic Volumetric Printing Via Oxygen Inhibition Control: Improved Accuracy and Large‐Volume Capability","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Additive Manufacturing and 3D Printing Technologies","field":"Engineering","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ontario Tech University; National Research Council Canada","funders":"National Research Council Canada","keywords":"Fabrication; Photoinitiator; 3D printing; Penetration depth; Oxygen; Penetration (warfare); Radical; Scalability","score_opus":0.0032316401223113906,"score_gpt":0.21235121239537216,"score_spread":0.20911957227306077,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414160563","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.91082036,0.00033988192,0.08594587,0.00010091764,0.00051203294,0.00043979211,0.00005383884,0.001608842,0.00017847988],"genre_scores_gemma":[0.9938369,0.00013887614,0.005724935,0.000054404427,0.000043024203,0.000113483824,0.00001557636,0.000032981323,0.000039842293],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985298,0.000049519436,0.00044495868,0.00038057932,0.00010258376,0.0004925585],"domain_scores_gemma":[0.99917066,0.00021273734,0.00011103861,0.00036660826,0.00009390741,0.000045041732],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005913129,0.00026216428,0.0003977313,0.0003196263,0.00016343621,0.00008611806,0.00013630648,0.0001454065,0.00004097342],"category_scores_gemma":[0.0013024907,0.00027109374,0.0000527782,0.00035003794,0.00007319219,0.0003238373,0.0001615085,0.00017861254,0.000008251399],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000033732424,0.00002532947,0.0008741394,0.00048895646,0.00007690937,0.0000036951074,0.00004593455,0.00050299196,0.91859055,0.0002499888,0.00008615294,0.0790216],"study_design_scores_gemma":[0.0011277074,0.000040582137,0.028608406,0.00018031636,0.000040913368,0.000004328733,0.00009643209,0.002496199,0.95448047,0.008690748,0.0038473147,0.00038658283],"about_ca_topic_score_codex":0.000027303382,"about_ca_topic_score_gemma":0.000014125608,"teacher_disagreement_score":0.08301653,"about_ca_system_score_codex":0.00009651062,"about_ca_system_score_gemma":0.000012231244,"threshold_uncertainty_score":0.99997413},"labels":[],"label_agreement":null},{"id":"W4414168029","doi":"10.1002/adma.202509308","title":"Structural Phase Separation and Enhanced Superconductivity in La <sub>1.875</sub> Ba <sub>0.125</sub> CuO <sub>4</sub> Under Uniaxial Strain","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Physics of Superconductivity and Magnetism","field":"Physics and Astronomy","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Light Source (Canada); University of Saskatchewan; University of Toronto","funders":"Basic Energy Sciences; Office of International Science and Engineering; Western Economic Diversification Canada; Natural Sciences and Engineering Research Council of Canada; University of Toronto; National Research Council Canada; Canada Foundation for Innovation; U.S. Department of Energy; University of Saskatchewan; Canadian Light Source; National Science Foundation","keywords":"Superconductivity; Tetragonal crystal system; Orthorhombic crystal system; Amorphous solid; Phase transition; Phase (matter); Volume fraction; Transition temperature","score_opus":0.009700694965908233,"score_gpt":0.2850279283878384,"score_spread":0.27532723342193016,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414168029","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99284416,0.00010196682,0.0034003532,0.00020310239,0.0009445186,0.0009106208,0.0007451206,0.00011226799,0.0007378717],"genre_scores_gemma":[0.99853796,0.00009558876,0.00018955921,0.00010173329,0.00036265198,0.00020232142,0.0004253072,0.0000640508,0.000020810363],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99678475,0.00039273532,0.0007112951,0.0009937695,0.00032821952,0.0007892519],"domain_scores_gemma":[0.9986934,0.000237954,0.00020400841,0.00053177285,0.00015579324,0.00017709132],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00047251757,0.00065917097,0.00089256634,0.00023354946,0.00030805802,0.00028176676,0.00027104624,0.0002358512,0.0001014521],"category_scores_gemma":[0.00004487457,0.0007239805,0.00013801595,0.00039446008,0.00034005955,0.0039121737,0.0002246863,0.00040158565,0.000029640456],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021224566,0.00025942785,0.00001950718,0.00009402486,0.00007967334,0.000006518289,0.0003249008,0.00031557027,0.9131163,0.01964832,0.000044774533,0.065878786],"study_design_scores_gemma":[0.0037420143,0.00012472342,0.0012515686,0.00014302948,0.0000696676,0.00000344593,0.00042429403,0.00003823119,0.9056762,0.08783137,0.000061652914,0.0006337864],"about_ca_topic_score_codex":0.000095851996,"about_ca_topic_score_gemma":0.000108200584,"teacher_disagreement_score":0.06818305,"about_ca_system_score_codex":0.00012787753,"about_ca_system_score_gemma":0.000262772,"threshold_uncertainty_score":0.99952114},"labels":[],"label_agreement":null},{"id":"W4414169131","doi":"10.1002/adma.202509940","title":"Remorphable Architectures: Reprogramming Global Bistability through Locally Bistable Metamaterials","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"China Scholarship Council; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Bistability; Metamaterial; Morphing; Hinge; Control reconfiguration; Topology (electrical circuits); Kinematics","score_opus":0.006975399554482316,"score_gpt":0.2553397802078271,"score_spread":0.2483643806533448,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414169131","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.84935415,0.0013671848,0.1325749,0.000068025365,0.0064436775,0.0011356472,0.0004615164,0.0018968178,0.0066980594],"genre_scores_gemma":[0.9124616,0.00035145695,0.08611234,0.00022272617,0.00015813236,0.00027147072,0.000065463646,0.000078099525,0.00027869825],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9972133,0.000100165285,0.0009219439,0.0006544067,0.00026981547,0.00084033643],"domain_scores_gemma":[0.9986026,0.00006691641,0.00013472214,0.00093935634,0.00015659601,0.00009975325],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0006427702,0.00049935974,0.0008789654,0.000060914954,0.00017597826,0.0002166114,0.00038803165,0.00019740315,0.00036966175],"category_scores_gemma":[0.00030353942,0.00047622665,0.00010132438,0.00042626212,0.0000855963,0.00032709588,0.00017568046,0.00009088562,0.00005334351],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019576926,0.00004096945,0.0000050701183,0.00071049156,0.000076704324,0.0000143424795,0.00005944018,0.009955612,0.97146666,0.010778304,0.0002585659,0.006438085],"study_design_scores_gemma":[0.0007191576,0.000043780692,0.00002278689,0.00016592586,0.000053569485,0.000010980146,0.00006696136,0.000040499912,0.8563807,0.06513691,0.076948546,0.0004101826],"about_ca_topic_score_codex":0.00007753616,"about_ca_topic_score_gemma":0.00003708233,"teacher_disagreement_score":0.115085945,"about_ca_system_score_codex":0.00034822267,"about_ca_system_score_gemma":0.00008277594,"threshold_uncertainty_score":0.9997689},"labels":[],"label_agreement":null},{"id":"W4414287572","doi":"10.1002/adma.202510267","title":"Stabilizing Cu <sup>0</sup> /Cu <sup>+</sup> Interfaces via High‐Entropy Electrochemical Potential Regulation Strategy for Enhanced CO <sub>2</sub> ‐to‐Ethylene Conversion in Acidic Medium","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"CO2 Reduction Techniques and Catalysts","field":"Energy","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Liaoning Revitalization Talents Program; National Natural Science Foundation of China","keywords":"Faraday efficiency; Electrochemistry; Electrolyte; Catalysis; Electrode; Ethylene glycol; Electrochemical potential; Reversible hydrogen electrode; Density functional theory","score_opus":0.006810254933799717,"score_gpt":0.2566629938330425,"score_spread":0.24985273889924275,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414287572","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9483069,0.00013149988,0.048932437,0.00043949104,0.00047215584,0.0011980732,0.0000610687,0.00037378017,0.00008455931],"genre_scores_gemma":[0.99566996,0.00029033338,0.0021511295,0.00014241785,0.00028630934,0.00054256205,0.0006780262,0.00007636307,0.00016287547],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99668944,0.00017661306,0.0010362874,0.000924893,0.00040329972,0.00076948036],"domain_scores_gemma":[0.99859387,0.000116755,0.00028530136,0.0005496986,0.00030728374,0.00014710632],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00048096487,0.00048637297,0.0007746728,0.00038251575,0.00016908385,0.000118061784,0.00037076033,0.00036483756,0.0003395044],"category_scores_gemma":[0.00018394452,0.0005123335,0.00013781774,0.00046691298,0.00012690938,0.00050574925,0.00015566319,0.00018937259,0.00003659512],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016837935,0.00010324837,0.0000033607437,0.0002121616,0.00005300199,0.0000028871916,0.00019880678,0.0121891,0.9738682,0.0011812415,0.00025996193,0.010244238],"study_design_scores_gemma":[0.0019193466,0.00032717086,0.00005207589,0.0002147325,0.000064951244,0.0000065603313,0.0004452649,0.000705618,0.98744917,0.0071443487,0.0012168696,0.00045391548],"about_ca_topic_score_codex":0.00020120444,"about_ca_topic_score_gemma":0.000041506955,"teacher_disagreement_score":0.04736305,"about_ca_system_score_codex":0.00060116855,"about_ca_system_score_gemma":0.00013807787,"threshold_uncertainty_score":0.99973285},"labels":[],"label_agreement":null},{"id":"W4414334848","doi":"10.1002/adma.202505959","title":"Light‐Activated Micromotors in Air Propelled by Thermal Convection","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Micro and Nano Robotics","field":"Physics and Astronomy","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"Concordia University; Natural Sciences and Engineering Research Council of Canada; Government of Canada; CMC Microsystems","keywords":"Thermal; Propulsion; Convection; Field (mathematics); Marangoni effect; Nanoparticle; Aerodynamics; Colloid","score_opus":0.0024644547548012445,"score_gpt":0.21850955131919267,"score_spread":0.21604509656439141,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414334848","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9946967,0.000038627484,0.000570964,0.00013002269,0.0005142215,0.00035221752,0.000026461505,0.000034917935,0.0036359038],"genre_scores_gemma":[0.9975261,0.000003944488,0.00023120901,0.0000599329,0.00004987137,0.000037697824,0.000041095707,0.0000132487085,0.0020368865],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992735,0.000051690993,0.00023974982,0.00018985503,0.000048840964,0.00019636854],"domain_scores_gemma":[0.9997066,0.000016712998,0.000078816345,0.00013807508,0.000038327948,0.000021428808],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009297326,0.00012966455,0.00021628173,0.000055025277,0.00004837845,0.000016202795,0.000085323714,0.000040836807,0.00042317354],"category_scores_gemma":[0.0000045260863,0.0001139526,0.000027501124,0.00013958193,0.000012593003,0.000113795184,0.000033605553,0.000053799045,0.000045918026],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000777968,0.00008461747,0.0005236977,0.000016100586,0.000020386391,5.3269474e-7,0.00004915202,0.000073143354,0.9969501,0.00066253426,0.0005897104,0.0009522439],"study_design_scores_gemma":[0.00089305476,0.000019030871,0.00039163604,0.00004971476,0.00000814244,1.0282655e-7,0.000041933115,0.0000024645178,0.9896277,0.0005806036,0.008268308,0.00011727806],"about_ca_topic_score_codex":0.00010212093,"about_ca_topic_score_gemma":0.0000017635781,"teacher_disagreement_score":0.0076785977,"about_ca_system_score_codex":0.000039829556,"about_ca_system_score_gemma":0.000038644514,"threshold_uncertainty_score":0.4646852},"labels":[],"label_agreement":null},{"id":"W4414351903","doi":"10.1002/adma.202511322","title":"COF‐Based S‐Scheme Heterojunction Photocatalyst","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Covalent Organic Framework Applications","field":"Materials Science","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Natural Science Foundation of China","keywords":"Photocatalysis; Heterojunction; Fabrication; Characterization (materials science); Solar energy; Charge carrier; Water splitting; Semiconductor","score_opus":0.006418043676498064,"score_gpt":0.2662564491204999,"score_spread":0.25983840544400183,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414351903","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9605148,0.00009278818,0.032800715,0.0008386075,0.002219106,0.0008543953,0.0000934774,0.0005031667,0.0020829416],"genre_scores_gemma":[0.9811795,0.000012241172,0.016291175,0.00090657175,0.000076344644,0.00047196355,0.00006078996,0.000025691137,0.00097574946],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99852705,0.000059152448,0.00041060348,0.00046477374,0.0002352748,0.00030314038],"domain_scores_gemma":[0.9988209,0.00010929061,0.00014600027,0.00073771656,0.00013355669,0.0000525105],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0003839379,0.00018953702,0.00026919064,0.00010124006,0.00017231378,0.000113646325,0.000322041,0.000103515624,0.0028901272],"category_scores_gemma":[0.00020487815,0.00018806526,0.00004575916,0.0003267298,0.0000880895,0.00020421814,0.000103869934,0.00006347429,0.0011432727],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007761478,0.000060676466,0.000021142116,0.000060526407,0.0000052950463,9.864602e-7,0.000011613689,0.000059572387,0.99499965,0.003040624,0.001274606,0.00038767664],"study_design_scores_gemma":[0.0004968548,0.000023403521,0.00025207066,0.000069249814,0.000019735235,0.0000013437023,0.000016553231,0.000025975274,0.9646717,0.002156362,0.0320999,0.00016686796],"about_ca_topic_score_codex":0.00002302714,"about_ca_topic_score_gemma":0.0000090353815,"teacher_disagreement_score":0.030825293,"about_ca_system_score_codex":0.0001557711,"about_ca_system_score_gemma":0.00010399418,"threshold_uncertainty_score":0.99963444},"labels":[],"label_agreement":null},{"id":"W4414376636","doi":"10.1002/adma.202505620","title":"Arbitrarily Shapeable Couplant with Fluidity Onset for Conformal Ultrasound","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrospun Nanofibers in Biomedical Applications","field":"Materials Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Science Foundation of Zhejiang Province; National Natural Science Foundation of China","keywords":"Conformal map; Ultrasound; Ideal (ethics); Stress (linguistics); Adaptability","score_opus":0.005414986347190071,"score_gpt":0.25367222219688745,"score_spread":0.2482572358496974,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414376636","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9238171,0.000121575664,0.06918167,0.00047616297,0.0009102652,0.0015037837,0.0012685724,0.0003208264,0.0024000667],"genre_scores_gemma":[0.8832822,0.000079828205,0.11196282,0.0014276064,0.000121409925,0.0012660701,0.00034867754,0.00003358535,0.0014777906],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983421,0.000027630822,0.0004187151,0.00042130947,0.00026057387,0.00052968867],"domain_scores_gemma":[0.99875444,0.00040376707,0.00015002495,0.00041309214,0.00018805497,0.00009059904],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005453389,0.0002129744,0.00036308108,0.00006356149,0.00028139786,0.00013340675,0.000376007,0.00010524197,0.0005243171],"category_scores_gemma":[0.00010316742,0.00016775352,0.000034236014,0.00021044197,0.00025323144,0.0002528168,0.000051869436,0.00005441909,0.000089648354],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040661189,0.000058102254,0.000014077139,0.00009267896,0.00001443045,0.0000012637067,0.00001886252,0.000015554637,0.9794413,0.015649363,0.004158207,0.00012957359],"study_design_scores_gemma":[0.00097993,0.00015382102,0.00013857888,0.000065794644,0.000035657467,0.000018837733,0.000019092866,0.00001032272,0.9523918,0.008547063,0.037432488,0.00020663269],"about_ca_topic_score_codex":0.00003770819,"about_ca_topic_score_gemma":0.000014478833,"teacher_disagreement_score":0.04278115,"about_ca_system_score_codex":0.00010659344,"about_ca_system_score_gemma":0.0002312158,"threshold_uncertainty_score":0.684079},"labels":[],"label_agreement":null},{"id":"W4414617202","doi":"10.1002/adma.202513255","title":"Comparative Advances in Sulfide and Halide Electrolytes for Commercialization of All‐Solid‐State Lithium Batteries","year":2025,"lang":"en","type":"review","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Halide; Sulfide; Electrolyte; Lithium (medication); Ionic conductivity; Energy storage; Fast ion conductor; Cathode; Oxide","score_opus":0.023868928585991205,"score_gpt":0.3378339278911096,"score_spread":0.3139649993051184,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414617202","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0012114159,0.99122304,0.0037991772,0.000012543688,0.0006916231,0.0015974474,0.0010803014,0.00028078194,0.000103685496],"genre_scores_gemma":[0.0019026581,0.9932584,0.0033899331,0.000018333558,0.000038219667,0.0009571636,0.00032616503,0.000066181296,0.0000429023],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99781567,0.000084191975,0.0011773247,0.00039203366,0.0001082659,0.0004225094],"domain_scores_gemma":[0.99870896,0.00048511726,0.00037892984,0.00030988976,0.00008847811,0.000028624028],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022235405,0.0005686903,0.0028900367,0.00033281127,0.000042344436,0.000060324855,0.00025817784,0.00022872216,0.000012109372],"category_scores_gemma":[0.00014143133,0.0005135665,0.000090909874,0.00023266255,0.0001290797,0.00045213074,0.000102920225,0.000106289386,0.0000017672146],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019267436,0.00006569783,0.0000032036319,0.1677302,0.00031453962,0.000007997734,0.00029107145,0.0018387673,0.081729546,0.0028467514,0.00039193506,0.7445876],"study_design_scores_gemma":[0.00046638926,0.00011806083,0.000003246572,0.012159887,0.00018160783,0.000005889731,0.000041462004,0.0000071396826,0.30554813,0.007425575,0.6734001,0.0006425399],"about_ca_topic_score_codex":0.0000050609956,"about_ca_topic_score_gemma":0.000047734888,"teacher_disagreement_score":0.74394506,"about_ca_system_score_codex":0.00009337718,"about_ca_system_score_gemma":0.0000438874,"threshold_uncertainty_score":0.9997316},"labels":[],"label_agreement":null},{"id":"W4414890514","doi":"10.1002/adma.202506398","title":"PiP‐Plex: A Particle‐in‐Particle System for Multiplexed Quantification of Proteins Secreted by Single Cells","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Biosensing Techniques and Applications","field":"Biochemistry, Genetics and Molecular Biology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; National Research Council Canada; McGill Genome Centre","funders":"National Research Council Canada; McGill University","keywords":"Multiplex; Secretion; Fluorescence; Secretory protein; Confocal; Immunoassay; Cell; Viability assay; Lipopolysaccharide","score_opus":0.011831108506724655,"score_gpt":0.27805397330088877,"score_spread":0.2662228647941641,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414890514","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.91554767,0.0001071546,0.08267788,0.000112743866,0.00008661795,0.0011855013,0.00019840132,0.000051650153,0.000032371227],"genre_scores_gemma":[0.9728303,0.000020047833,0.026326308,0.0000365025,0.000018433762,0.00042012113,0.00015023639,0.000016570966,0.00018151237],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990407,0.00003592631,0.00037489738,0.00029620217,0.000058636488,0.00019364015],"domain_scores_gemma":[0.99930567,0.000020704974,0.0001603236,0.00035250655,0.0001342036,0.000026569625],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017610315,0.00011268471,0.00018788222,0.000019449291,0.00004971014,0.000014451436,0.000109029555,0.000088592176,0.0000017615796],"category_scores_gemma":[0.00008673226,0.00011295966,0.000037904883,0.000121275036,0.000050810635,0.0000070707506,0.000040462215,0.000018787123,0.0000012636584],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019743065,0.00009808307,0.000015631904,0.00011851796,0.000008657984,1.147414e-7,0.000008866569,0.00009345866,0.99692726,0.0016275947,0.0001491663,0.0007552432],"study_design_scores_gemma":[0.0006629134,0.00012224595,0.000042521337,0.00007392408,0.000010817899,4.8202025e-7,0.000057330162,0.00014615855,0.9935555,0.0002469741,0.0049677757,0.00011335416],"about_ca_topic_score_codex":0.000016800866,"about_ca_topic_score_gemma":0.000014017433,"teacher_disagreement_score":0.057282586,"about_ca_system_score_codex":0.000033289147,"about_ca_system_score_gemma":0.00002479971,"threshold_uncertainty_score":0.4606361},"labels":[],"label_agreement":null},{"id":"W4414967712","doi":"10.1002/adma.202418734","title":"MOFs and COFs for Radionuclide and Nuclear‐Waste Treatment","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia, Okanagan Campus; University of British Columbia","funders":"Ministerio de Ciencia e Innovación","keywords":"Nuclear power; Radioactive waste; Nuclear fission; Sustainable development; Nuclear fuel; Sustainable energy; Radionuclide","score_opus":0.00991096394735297,"score_gpt":0.2593998679451877,"score_spread":0.24948890399783474,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414967712","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99484444,0.00064998836,0.0007320706,0.0007335572,0.00009883267,0.00024462515,0.00014671517,0.00006404173,0.002485762],"genre_scores_gemma":[0.98553395,0.0010724827,0.010046254,0.00014361108,0.00008337055,0.00021132037,0.000018654839,0.000025356085,0.0028650186],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99937844,0.000007839848,0.0001921112,0.00024317531,0.000041136536,0.00013729674],"domain_scores_gemma":[0.99948657,0.00014714703,0.00006713717,0.00023194864,0.000023705114,0.000043519343],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006981844,0.00012225678,0.00024014435,0.000018828152,0.000120263976,0.0000612371,0.000056817735,0.00007554866,0.0004047078],"category_scores_gemma":[0.00008572646,0.000104838204,0.000024068759,0.000030521373,0.000041663534,0.00005033453,0.000034218403,0.000020298308,0.0000051412057],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000040914776,0.00002943327,0.0000062518557,0.00009482453,0.00003610441,3.3928586e-7,0.00004445885,0.0000016851646,0.9621331,0.012161587,0.00025017557,0.025201116],"study_design_scores_gemma":[0.0005927464,0.000016435763,0.000024811377,0.00007498817,0.000057879177,0.0000025157597,0.00015551609,0.000016170769,0.87368006,0.0048576104,0.12042077,0.00010051278],"about_ca_topic_score_codex":0.000007276859,"about_ca_topic_score_gemma":0.0000016300368,"teacher_disagreement_score":0.12017059,"about_ca_system_score_codex":0.000034951587,"about_ca_system_score_gemma":0.000012014348,"threshold_uncertainty_score":0.44312665},"labels":[],"label_agreement":null},{"id":"W4415156412","doi":"10.1002/adma.202516133","title":"2D Indium Oxide at the Epitaxial Graphene/SIC Interface: Synthesis, Structure, Properties, and Devices","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Graphene research and applications","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Air Force Office of Scientific Research; Natural Sciences and Engineering Research Council of Canada; Directorate for Mathematical and Physical Sciences; Canada Foundation for Innovation","keywords":"Monolayer; Schottky barrier; Schottky diode; Band gap; Ohmic contact; Rectification; Epitaxy; Graphene; Diode","score_opus":0.016015172302652193,"score_gpt":0.27351089252978616,"score_spread":0.25749572022713396,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415156412","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.995674,0.0018743495,0.0001740897,0.00084057654,0.00030683517,0.00062609,0.00024799656,0.00008567167,0.00017034728],"genre_scores_gemma":[0.99800587,0.00024523181,0.000772041,0.00018935151,0.000042002324,0.00036832504,0.000008748835,0.000017412634,0.0003510215],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99838126,0.00016979694,0.00033483776,0.00043037144,0.000259187,0.00042453618],"domain_scores_gemma":[0.9990429,0.00016900957,0.00012489794,0.00048303884,0.00009953874,0.00008056111],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00043428811,0.00020683465,0.00027817252,0.00008483635,0.0004914353,0.00023580236,0.000448369,0.000068836,0.00053579133],"category_scores_gemma":[0.000248617,0.00012837247,0.000033436943,0.00021886907,0.00037217065,0.00022743654,0.0003920193,0.00007027047,0.00006608126],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001059585,0.000015165412,0.00008691288,0.00009670639,0.000015653615,7.068616e-7,0.000050221952,0.000022218082,0.99617624,0.0018922498,0.0005390629,0.0009988929],"study_design_scores_gemma":[0.0001912122,0.000018495437,0.003297755,0.0000919709,0.000023922259,0.000004809613,0.00011500006,0.0000013992023,0.981686,0.0065446477,0.007879681,0.0001451284],"about_ca_topic_score_codex":0.00014258895,"about_ca_topic_score_gemma":0.00026067012,"teacher_disagreement_score":0.014490272,"about_ca_system_score_codex":0.000059577793,"about_ca_system_score_gemma":0.000077325705,"threshold_uncertainty_score":0.58665395},"labels":[],"label_agreement":null},{"id":"W4415265628","doi":"10.1002/adma.202512471","title":"Soft and Strong: Elastic Conductors with Bio‐Inspired Self‐Protection","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Sensor and Energy Harvesting Materials","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Yarn; Electrical conductor; Stiffness; Ultimate tensile strength; Textile; Electrode; Stretchable electronics; Flexible electronics","score_opus":0.008843848906761218,"score_gpt":0.21255777318543453,"score_spread":0.20371392427867333,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415265628","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98060995,0.00012079395,0.016049622,0.000019224713,0.0010808085,0.00024200462,0.000024763833,0.0009733406,0.0008795131],"genre_scores_gemma":[0.99365205,0.00007260164,0.005854912,0.000025006431,0.00006729171,0.000073671756,0.000012935163,0.000045022065,0.00019653299],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99907017,0.000029721783,0.0002646832,0.0002530314,0.000096624164,0.00028574854],"domain_scores_gemma":[0.9995997,0.00004195365,0.000050376948,0.00019749197,0.000053200674,0.000057299378],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009282291,0.00023727103,0.00031194615,0.00009610641,0.00009776363,0.00007630103,0.00007087027,0.00007905805,0.00004396014],"category_scores_gemma":[0.00006445883,0.00020780467,0.000014017862,0.00013831373,0.00005225127,0.0002755561,0.000026248144,0.00005471378,0.000011165977],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005801569,0.000009005706,0.000019203593,0.00021369215,0.000046464327,0.0000041641124,0.00003744103,0.023226352,0.97390795,0.001009841,0.000017157372,0.0014507341],"study_design_scores_gemma":[0.00081817777,0.00008392088,0.0009028819,0.00017217844,0.000047385533,0.000013161109,0.000052135285,0.00024285052,0.99175775,0.0009515496,0.004642645,0.00031535677],"about_ca_topic_score_codex":0.0000122564725,"about_ca_topic_score_gemma":0.0000071312793,"teacher_disagreement_score":0.022983503,"about_ca_system_score_codex":0.0000671039,"about_ca_system_score_gemma":0.000016176562,"threshold_uncertainty_score":0.8474028},"labels":[],"label_agreement":null},{"id":"W4415265936","doi":"10.1002/adma.202510350","title":"The First Review on Nano‐Agricultural Applications of MXene and MBene‐Based Materials for Plant‐Immunoengineering, Controlled Protection, and Inducing Biostimulation Mechanisms","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"MXene and MAX Phase Materials","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba; St. Boniface Hospital","funders":"Deutsche Forschungsgemeinschaft","keywords":"Agrochemical; Sustainability; Biostimulation; Agriculture; Population; Sustainable agriculture; MXenes; Crop protection; Abiotic stress","score_opus":0.008838871973661113,"score_gpt":0.2507589485557044,"score_spread":0.2419200765820433,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415265936","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96105564,0.00381448,0.01888265,0.00179083,0.0019495235,0.011302712,0.00092632574,0.00019776964,0.0000800707],"genre_scores_gemma":[0.9904763,0.0013882165,0.002937913,0.0003671531,0.00008833295,0.0045523085,0.00008057291,0.000024517449,0.00008466829],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983065,0.00009544086,0.0007876212,0.0003610484,0.0001946285,0.0002547738],"domain_scores_gemma":[0.9986216,0.0003042726,0.00044017637,0.00031816837,0.00027859965,0.000037221536],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0013923879,0.00025349003,0.0006915444,0.00007879461,0.00041621568,0.00016650298,0.0001586263,0.00009167823,0.000052895757],"category_scores_gemma":[0.00045104313,0.00016350824,0.000040429597,0.00012562555,0.00006533332,0.0001540492,0.00006432414,0.000027000095,0.0000036462172],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000672629,0.000025622296,1.6194876e-7,0.0014856167,0.0000200801,1.2930698e-7,0.000012265681,0.000093130904,0.98951614,0.007582595,0.00013152706,0.00046009314],"study_design_scores_gemma":[0.0023498363,0.00017130708,0.00006051375,0.0014232087,0.000088535926,0.0000030158553,0.0000131806355,0.000012768591,0.9879582,0.0020014874,0.0057450333,0.00017289177],"about_ca_topic_score_codex":0.000026766276,"about_ca_topic_score_gemma":0.000008877108,"teacher_disagreement_score":0.02942068,"about_ca_system_score_codex":0.000047380243,"about_ca_system_score_gemma":0.000043772812,"threshold_uncertainty_score":0.6667673},"labels":[],"label_agreement":null},{"id":"W4415275482","doi":"10.1002/adma.70827","title":"Heterojunction‐Driven Stochasticity: Bi‐Heterojunction Noise‐Enhanced Negative Transconductance Transistor in Image Generation (Adv. Mater. 41/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"","keywords":"Transconductance; Transistor; Entropy (arrow of time); Noise (video); Field-effect transistor; Entropy estimation","score_opus":0.016468335092657438,"score_gpt":0.2548688625468189,"score_spread":0.23840052745416146,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415275482","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.71768063,0.00010180692,0.27791002,0.0000570979,0.0029702005,0.00056077336,0.000038688082,0.00038093817,0.00029984763],"genre_scores_gemma":[0.9929173,0.00011586335,0.006052448,0.0001594504,0.00021231316,0.00020816231,0.000052324674,0.000060815495,0.0002213533],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99797803,0.00009966912,0.00070279575,0.00054424844,0.00019210813,0.0004831744],"domain_scores_gemma":[0.99933827,0.0000777247,0.00010464582,0.0003064956,0.000107400156,0.00006547849],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001651629,0.0004141161,0.0005539586,0.0002524139,0.00015896598,0.00007607449,0.00017024213,0.00014124451,0.00011239992],"category_scores_gemma":[0.00007028412,0.00044745626,0.00008339418,0.00041860153,0.00006809014,0.00094066514,0.000023398605,0.00020880197,0.000036634898],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016058284,0.00002435613,0.0000022320562,0.0001816077,0.000024356777,0.0000064311384,0.0002366583,0.14547639,0.8511932,0.00006350365,0.000039794446,0.002590919],"study_design_scores_gemma":[0.0014331484,0.00007711772,0.00024413693,0.00024240496,0.00002992454,0.0000036384836,0.00006754602,0.0030760032,0.99365103,0.0005692803,0.00021448437,0.00039129247],"about_ca_topic_score_codex":0.000009337264,"about_ca_topic_score_gemma":0.000060034734,"teacher_disagreement_score":0.27523664,"about_ca_system_score_codex":0.00033060505,"about_ca_system_score_gemma":0.000026249374,"threshold_uncertainty_score":0.9997977},"labels":[],"label_agreement":null},{"id":"W4415460919","doi":"10.1002/adma.202515756","title":"In Situ Building Halide‐Alloy Dual‐Phase Interfaces for Dendrite‐Free Sulfide Solid‐State Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Battery Materials and Technologies","field":"Engineering","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Hong Kong Polytechnic University; National Natural Science Foundation of China","keywords":"Electrolyte; Anode; Sulfide; Conformal coating; Interphase; Dendrite (mathematics); Metal; Lithium (medication); Plating (geology)","score_opus":0.009442979661440348,"score_gpt":0.28855413568662924,"score_spread":0.2791111560251889,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415460919","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97499424,0.0003639551,0.019365435,0.00042584076,0.0028207111,0.0006505261,0.0003284059,0.00087525416,0.00017564415],"genre_scores_gemma":[0.97918296,0.00040082837,0.019363802,0.000173054,0.000067944144,0.00046324558,0.000025890366,0.00007311031,0.00024917576],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980506,0.000028927245,0.0007603556,0.00041546213,0.000117219555,0.0006274574],"domain_scores_gemma":[0.9990687,0.00017306375,0.00010243598,0.0005479816,0.000069366964,0.000038458784],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002644722,0.00039527632,0.00068085775,0.00029904506,0.0000869103,0.00017451972,0.0004082764,0.00013547328,0.000060785227],"category_scores_gemma":[0.00031271548,0.00039853918,0.000051160747,0.000202176,0.00009584752,0.00074973726,0.0002587728,0.0000942536,0.000013661],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016846923,0.000032006643,0.000006411235,0.00044666897,0.000039745133,0.000026226608,0.000076323544,0.0038195131,0.98907644,0.0016835484,0.0015783051,0.00304635],"study_design_scores_gemma":[0.001836377,0.00007731915,0.00003666206,0.00030124356,0.000015373655,0.0000055538176,0.00010973314,0.0000374393,0.9446381,0.039886255,0.012670469,0.00038551292],"about_ca_topic_score_codex":0.000012495081,"about_ca_topic_score_gemma":0.0000725934,"teacher_disagreement_score":0.04443837,"about_ca_system_score_codex":0.00013771343,"about_ca_system_score_gemma":0.000018184654,"threshold_uncertainty_score":0.99984664},"labels":[],"label_agreement":null},{"id":"W4415468854","doi":"10.1002/adma.202507028","title":"A Versatile Materials Class for Solution‐Processed Optics and Photonics Based On Titanium Oxide Hydrates and Polyalcohols: A Perspective","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"European Research Council; Division of Materials Research; Engineering and Physical Sciences Research Council; National Science Foundation","keywords":"Fabrication; Photonics; Oxide; Refractive index; Focus (optics); Quantum dot; Titanium oxide; Characterization (materials science)","score_opus":0.006373905023937868,"score_gpt":0.2468667407823534,"score_spread":0.24049283575841554,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415468854","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99088603,0.00021764255,0.0052552563,0.00041843244,0.00040172224,0.0008338094,0.0007780433,0.000249077,0.0009600138],"genre_scores_gemma":[0.98809075,0.00015359324,0.010819402,0.00019244125,0.0000412629,0.00054413377,0.000053794567,0.00003951219,0.000065083004],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99905545,0.000019071975,0.00027980877,0.00029905865,0.00008123617,0.00026535624],"domain_scores_gemma":[0.999448,0.000120002325,0.00005938202,0.00021320973,0.00010714452,0.000052265666],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018046664,0.00022459328,0.00033903256,0.00008679126,0.00013682111,0.00020538198,0.000089399706,0.00010092924,0.000035254827],"category_scores_gemma":[0.000093912386,0.00022338447,0.000020618876,0.000095138144,0.00006154675,0.00015740824,0.000035428006,0.000033255234,0.0000053233002],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012327307,0.000021119899,9.372609e-7,0.00028375513,0.000024832156,5.0273906e-7,0.00005189419,0.0010463855,0.9875122,0.010697765,0.0001706033,0.00006677028],"study_design_scores_gemma":[0.0010052087,0.000058278023,0.00013891436,0.000118401236,0.00004694176,0.000001194254,0.00017574811,0.0029009024,0.9895764,0.0038522987,0.0018996481,0.00022606565],"about_ca_topic_score_codex":0.000023070075,"about_ca_topic_score_gemma":0.000009236168,"teacher_disagreement_score":0.006845467,"about_ca_system_score_codex":0.00011058352,"about_ca_system_score_gemma":0.000038590526,"threshold_uncertainty_score":0.91093546},"labels":[],"label_agreement":null},{"id":"W4415535462","doi":"10.1002/adma.202514126","title":"Manganese‐Based Spinel Cathodes: A Promising Frontier for Solid‐State Lithium‐Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Spinel; Cathode; Commercialization; Electrochemistry; Electrolyte; Electrochemical energy storage","score_opus":0.012489297889215578,"score_gpt":0.28407606699327886,"score_spread":0.27158676910406326,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415535462","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.70726633,0.00022811438,0.2829294,0.00020728594,0.0061067576,0.0015761151,0.0004337035,0.0007603242,0.00049198425],"genre_scores_gemma":[0.8681337,0.00007273993,0.12685306,0.00088395894,0.00030617122,0.0016470279,0.0002158455,0.00019955651,0.0016878997],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99798876,0.00006122057,0.00073404686,0.00043385196,0.00017712532,0.0006050209],"domain_scores_gemma":[0.99904907,0.00010097177,0.00012631972,0.000537955,0.00012915034,0.000056516048],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040591753,0.00042231468,0.00064493815,0.00018416281,0.00015055927,0.00018372676,0.00028518183,0.00010971853,0.00016570049],"category_scores_gemma":[0.00015447977,0.00042965915,0.00005465279,0.00014147219,0.00007243209,0.0004729192,0.00007463248,0.000063623454,0.00003369852],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021948581,0.0000281365,0.000012951439,0.001141442,0.00004731654,0.000004433919,0.00013225354,0.009647958,0.9845179,0.00013056718,0.0016781321,0.002439461],"study_design_scores_gemma":[0.0012848737,0.00005474968,0.0001225144,0.00041345975,0.000038855247,0.0000019063256,0.0000441616,0.00021054315,0.9761082,0.005622279,0.01567644,0.0004220023],"about_ca_topic_score_codex":0.0000045156294,"about_ca_topic_score_gemma":0.0000030912481,"teacher_disagreement_score":0.16086741,"about_ca_system_score_codex":0.00020490373,"about_ca_system_score_gemma":0.000042406948,"threshold_uncertainty_score":0.9998155},"labels":[],"label_agreement":null},{"id":"W4415848827","doi":"10.1002/adma.202514577","title":"Quantum Size Effect Synergizes Space‐Limited Domain Action for Advanced Aqueous Zinc‐Iodine Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Suzhou Institute of Nanotechnology, Chinese Academy of Sciences; South China Normal University; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Aqueous solution; Cathode; Quantum dot; Dissolution; Redox; Fabrication; Microporous material; Energy storage","score_opus":0.009896293078320396,"score_gpt":0.28797310784693675,"score_spread":0.27807681476861634,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415848827","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.94843036,0.0006367475,0.042801626,0.00069246744,0.002405605,0.0018084426,0.00021239374,0.0025979606,0.00041436712],"genre_scores_gemma":[0.9735791,0.00085390237,0.022686377,0.00010195699,0.00009881489,0.0018593214,0.00008238693,0.00013674176,0.00060138665],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975316,0.00009322214,0.00058049953,0.0005893742,0.0002835618,0.00092177425],"domain_scores_gemma":[0.9976682,0.0012019255,0.000114946524,0.0007849622,0.00015307197,0.000076899676],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00038192834,0.0005389889,0.0008092299,0.0003007009,0.00022366027,0.00011851963,0.000465553,0.0002760434,0.00012703594],"category_scores_gemma":[0.0013384515,0.0005178914,0.00011339149,0.00049414707,0.00017753136,0.000578461,0.00018737314,0.00017820497,0.0000469676],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008849191,0.000026106209,0.000009376816,0.0008387953,0.000090848705,0.00001345284,0.000018915833,0.005195084,0.9388805,0.00130362,0.0010275567,0.051710825],"study_design_scores_gemma":[0.002435756,0.0003202272,0.00012870716,0.00026019046,0.00002809841,0.000007343352,0.000119486416,0.00022768378,0.9427404,0.010784365,0.04247324,0.00047454282],"about_ca_topic_score_codex":0.000004873498,"about_ca_topic_score_gemma":0.000013849508,"teacher_disagreement_score":0.051236283,"about_ca_system_score_codex":0.00042936107,"about_ca_system_score_gemma":0.00003062671,"threshold_uncertainty_score":0.99972725},"labels":[],"label_agreement":null},{"id":"W4415908018","doi":"10.1002/adma.202513415","title":"Phosphate Bonded Perchloric Superstructure Enables Energy‐Dense and Ultra‐Stable Aqueous Sodium‐Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advancements in Battery Materials","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"University of Waterloo; Science and Technology Service Network Plan; Mitacs; National Natural Science Foundation of China; Basic Research Fund for Free Exploration","keywords":"Electrolyte; Anode; Cathode; Interphase; Electrochemistry; Aqueous solution; Cathodic protection; Superstructure","score_opus":0.004880672145935467,"score_gpt":0.21001865181294063,"score_spread":0.20513797966700517,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415908018","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98853964,0.0019264804,0.0021057182,0.00014020565,0.0049519,0.00034632243,0.00020767037,0.0006224397,0.0011596087],"genre_scores_gemma":[0.9927201,0.0019812128,0.0030289125,0.0004961926,0.000197992,0.0001681164,0.00008732435,0.00009517753,0.0012249276],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99802357,0.000067457906,0.00058013387,0.00048148702,0.00021233472,0.0006349956],"domain_scores_gemma":[0.9991656,0.000094974486,0.00008210617,0.0004947518,0.00007823509,0.00008434841],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00019028848,0.0004867955,0.00063994137,0.00015490795,0.00019342618,0.00021371873,0.00024463495,0.00017263122,0.00062544894],"category_scores_gemma":[0.00007358793,0.0004784973,0.000031718002,0.00017775044,0.00015533273,0.0006924174,0.000110295696,0.00008617252,0.000020732099],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015061405,0.00001238973,0.000020812193,0.00035010494,0.00005735155,0.000020002,0.00020405577,0.0008804722,0.9931535,0.002364253,0.0011522328,0.0016341768],"study_design_scores_gemma":[0.00077154854,0.000036964757,0.00011053819,0.00014334724,0.000040992978,0.00002148144,0.00020316619,0.000008042354,0.96138006,0.009004315,0.027833208,0.0004463227],"about_ca_topic_score_codex":0.000038726375,"about_ca_topic_score_gemma":0.000011030852,"teacher_disagreement_score":0.031773463,"about_ca_system_score_codex":0.00017926427,"about_ca_system_score_gemma":0.000026316657,"threshold_uncertainty_score":0.99976665},"labels":[],"label_agreement":null},{"id":"W4415960538","doi":"10.1002/adma.202512502","title":"Halide Perovskite–Chalcohalide Nanocrystal Heterostructures as a Platform for the Synthesis and Investigation of the CsPbCl <sub>3</sub> –CsPbI <sub>3</sub> Epitaxial Interface","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Perovskite Materials and Applications","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"European Commission; Vlaamse regering; Istituto Italiano di Tecnologia; Agenzia Spaziale Italiana; HORIZON EUROPE Framework Programme; Fonds Wetenschappelijk Onderzoek","keywords":"Halide; Heterojunction; Nanocrystal; Epitaxy; Perovskite (structure); Ionic bonding; Superlattice","score_opus":0.007469028841700368,"score_gpt":0.22316084546681317,"score_spread":0.2156918166251128,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415960538","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9936567,0.00038139112,0.0026255646,0.00029784918,0.0010000564,0.0011343372,0.0006876901,0.00014530843,0.000071085844],"genre_scores_gemma":[0.9980517,0.00030701113,0.0005637984,0.0001312041,0.00012308486,0.0007232305,0.000029358289,0.000059363643,0.000011226999],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984243,0.000056525852,0.0006261455,0.0003383377,0.00019271758,0.00036196774],"domain_scores_gemma":[0.9986509,0.0004558229,0.00020020395,0.0005288984,0.00010168741,0.00006246713],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00034347843,0.00034452722,0.0004614788,0.00007797256,0.00029795448,0.00016472294,0.00036623987,0.00015170389,0.00001409571],"category_scores_gemma":[0.0003099838,0.00023982454,0.000105912266,0.00017449717,0.00023059317,0.0002564413,0.00017226144,0.00008962655,0.000005305816],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007665646,0.0000071365394,0.000012025724,0.00032993327,0.00007420348,2.8933616e-7,0.00022605377,0.0015434662,0.9901629,0.0016604469,0.00025143565,0.0056554573],"study_design_scores_gemma":[0.0004049072,0.000027817703,0.0013539493,0.00025355286,0.00010221824,0.000009886247,0.00013569952,0.00017872642,0.9880011,0.008600912,0.00069801643,0.00023319534],"about_ca_topic_score_codex":0.000030739582,"about_ca_topic_score_gemma":0.000059404923,"teacher_disagreement_score":0.006940465,"about_ca_system_score_codex":0.00007325385,"about_ca_system_score_gemma":0.000046038254,"threshold_uncertainty_score":0.97797614},"labels":[],"label_agreement":null},{"id":"W4416193870","doi":"10.1002/adma.202510609","title":"Proton Selective Nanoporous Atomically Thin Graphene Membranes for Vanadium Redox Flow Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Oak Ridge National Laboratory; U.S. Department of Energy; Office of Science; Vanderbilt University; National Science Foundation","keywords":"Membrane; Nanoporous; Nafion; Graphene; Vanadium; Proton transport; Proton exchange membrane fuel cell; Stacking; Fabrication","score_opus":0.006936794050095697,"score_gpt":0.2572161416269074,"score_spread":0.25027934757681175,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416193870","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.88582987,0.0010569405,0.095069796,0.0011861192,0.0027358162,0.0071407286,0.0005956695,0.0043967953,0.001988248],"genre_scores_gemma":[0.9131769,0.0007541357,0.07885421,0.00028678388,0.00009737787,0.00563905,0.00010347969,0.00015789876,0.0009301682],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99816793,0.00003746548,0.0004588365,0.00044933645,0.00019767476,0.00068874296],"domain_scores_gemma":[0.9989691,0.00019017066,0.000060860722,0.0005163902,0.00020857506,0.000054922722],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023566553,0.00033698216,0.0005110608,0.00026204452,0.00015636875,0.0000836393,0.00045729356,0.00020322889,0.00007792862],"category_scores_gemma":[0.000388522,0.0003299353,0.00006704654,0.0003868474,0.00014188321,0.0003678675,0.00012780887,0.00015353072,0.000018543136],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026246326,0.000021670498,0.000016416974,0.0011801636,0.00009273138,0.000006920869,0.00006270149,0.008357758,0.9797389,0.0005787009,0.0013075517,0.008374034],"study_design_scores_gemma":[0.0007082956,0.000090679714,0.00004407097,0.00009100236,0.00001460208,0.0000043227396,0.00006261144,0.00053499936,0.9412086,0.026044661,0.030884778,0.00031139437],"about_ca_topic_score_codex":0.000008162625,"about_ca_topic_score_gemma":0.000024740588,"teacher_disagreement_score":0.038530305,"about_ca_system_score_codex":0.0002490462,"about_ca_system_score_gemma":0.000055644217,"threshold_uncertainty_score":0.99991524},"labels":[],"label_agreement":null},{"id":"W4416305820","doi":"10.1002/adma.202512453","title":"Achieving Ultrahigh n‐Type Thermoelectric Power Factor in an Intrinsically Large Transport‐Fermi Energy Gap Conjugated Polymer","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Thermoelectric Materials and Devices","field":"Materials Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"Peking University; Chinese Academy of Sciences; Institute of Chemistry, Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Seebeck coefficient; Thermoelectric effect; Thermoelectric materials; Dopant; Charge carrier; Band gap; Doping; Polymer; Electrical resistivity and conductivity","score_opus":0.008398955507144135,"score_gpt":0.26432000650854687,"score_spread":0.2559210510014027,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416305820","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99358857,0.0008779301,0.0015124095,0.00010028367,0.0017591837,0.0004439881,0.00019170994,0.00038424984,0.0011416556],"genre_scores_gemma":[0.99759984,0.00021814823,0.00041895898,0.0009652812,0.000112391586,0.00009528061,0.00008821003,0.000077979785,0.00042388958],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99595785,0.00038509356,0.001125233,0.0009784461,0.00040999157,0.0011433755],"domain_scores_gemma":[0.9983522,0.00017330993,0.00035843055,0.0006990843,0.00024293245,0.00017403522],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005303769,0.0005779763,0.0009979131,0.000363727,0.00022992033,0.00017167888,0.0006614624,0.00027846082,0.0034588925],"category_scores_gemma":[0.000104887244,0.0005030529,0.00007773636,0.0009064291,0.00009073134,0.0009098367,0.00008538967,0.00014692331,0.000070826834],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010141096,0.00024577632,0.00028961874,0.000058768463,0.000021264574,0.000043895197,0.00018143945,0.000025022498,0.98014903,0.016067347,0.000007037868,0.0018966749],"study_design_scores_gemma":[0.0015267628,0.00032568313,0.005506626,0.00011367382,0.000029232624,0.000006783886,0.00005302027,0.000005503193,0.98820114,0.0017867552,0.0018727065,0.00057213625],"about_ca_topic_score_codex":0.0002836634,"about_ca_topic_score_gemma":0.0003067267,"teacher_disagreement_score":0.014280591,"about_ca_system_score_codex":0.00017891896,"about_ca_system_score_gemma":0.00023933737,"threshold_uncertainty_score":0.9997421},"labels":[],"label_agreement":null},{"id":"W4416594271","doi":"10.1002/adma.202511018","title":"Transistor‐Level Activation Functions via Two‐Gate Designs: From Analog Sigmoid and Gaussian Control to Real‐Time Hardware Demonstrations","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Institute for Information and Communications Technology Promotion; Ministry of Science and ICT, South Korea; National Research Foundation of Korea; Seoul National University; National Research Foundation","keywords":"Sigmoid function; Activation function; Transistor; Neuromorphic engineering; Gaussian; Multilayer perceptron; Transconductance; Artificial neural network; Controllability","score_opus":0.015632973714026093,"score_gpt":0.24678832867899764,"score_spread":0.23115535496497155,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416594271","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.46248567,0.000045672226,0.5354731,0.00015053534,0.00033588518,0.0002965984,0.00019866589,0.00035512928,0.00065873156],"genre_scores_gemma":[0.99153274,0.000031582254,0.0076818843,0.00015093056,0.00009865879,0.00008279986,0.00008212865,0.000029419814,0.00030985216],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989843,0.000044377204,0.0003403386,0.0002952868,0.00008871538,0.00024701553],"domain_scores_gemma":[0.9994196,0.00018143503,0.000049223043,0.0002042924,0.000057107813,0.00008829876],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009527085,0.00021546066,0.00031080085,0.000114403934,0.00022501635,0.000051749073,0.00008317052,0.000066366636,0.00011631905],"category_scores_gemma":[0.000047889316,0.0002290944,0.000033602395,0.00018323521,0.000026272877,0.00036953334,0.000015073019,0.00008111418,0.000026936605],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007705119,0.000008055287,0.000007664366,0.000027380527,0.000037213675,0.0000021480919,0.00006205552,0.09175242,0.9007918,0.00013579369,0.000046148103,0.007052243],"study_design_scores_gemma":[0.0011955232,0.000047270627,0.0017970933,0.00019029061,0.00007605399,0.000002633766,0.000050014023,0.0022159796,0.98991364,0.003034947,0.0011306122,0.00034594515],"about_ca_topic_score_codex":0.000028253642,"about_ca_topic_score_gemma":0.000024919807,"teacher_disagreement_score":0.5290471,"about_ca_system_score_codex":0.00009047674,"about_ca_system_score_gemma":0.000020410373,"threshold_uncertainty_score":0.93421984},"labels":[],"label_agreement":null},{"id":"W4416697426","doi":"10.1002/adma.71293","title":"Photothermal Boost of Laser‐Synthesized TiC Colloidal Variants with Engineered Solid‐State Interfaces and Nitridation (Adv. Mater. 47/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Laser-Ablation Synthesis of Nanoparticles","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Photothermal therapy; Colloid; Nucleation; Covalent bond; Carbon fibers; Nitriding; Colloidal particle; Photothermal effect; Surface modification","score_opus":0.005100201670826312,"score_gpt":0.21900195945833095,"score_spread":0.21390175778750464,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416697426","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971354,0.00008490841,0.0013882084,0.00004379815,0.00024294292,0.00040260144,0.00013071338,0.0002222604,0.0003491772],"genre_scores_gemma":[0.9964753,0.000099196404,0.0029644822,0.00002287186,0.000015313242,0.00007221166,0.000010098162,0.00004447172,0.00029606276],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988427,0.000053783642,0.00046528247,0.000216966,0.00015968084,0.00026157146],"domain_scores_gemma":[0.9993285,0.00018752387,0.000103666,0.00023963551,0.000089357905,0.00005130388],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022941374,0.00022910525,0.00043523693,0.00014471398,0.000044286582,0.00007610911,0.00012856621,0.00006199189,0.00023039403],"category_scores_gemma":[0.00010706744,0.00020475574,0.000019545898,0.00016975687,0.000060983355,0.00037661134,0.000038637543,0.000040820807,0.00002427539],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033973026,0.000027966482,0.000081633276,0.00025050287,0.000096460215,0.000003564142,0.00010016924,0.013089054,0.98492956,0.000024114606,0.000047281115,0.0010099706],"study_design_scores_gemma":[0.0011400833,0.00004819363,0.0025722038,0.00027312452,0.000049065486,0.0000032352868,0.00004955804,0.00054370466,0.9947065,0.00016799443,0.00024343643,0.00020289599],"about_ca_topic_score_codex":0.000011394535,"about_ca_topic_score_gemma":0.000007788108,"teacher_disagreement_score":0.012545349,"about_ca_system_score_codex":0.000050604238,"about_ca_system_score_gemma":0.000029123408,"threshold_uncertainty_score":0.83496964},"labels":[],"label_agreement":null},{"id":"W4416697497","doi":"10.1002/adma.71300","title":"Advancing Tomographic Volumetric Printing Via Oxygen Inhibition Control: Improved Accuracy and Large‐Volume Capability (Adv. Mater. 47/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Additive Manufacturing and 3D Printing Technologies","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ontario Tech University; National Research Council Canada","funders":"","keywords":"Volume (thermodynamics); Tomographic reconstruction; 3D printing; Tomography; Oxygen; Computed tomographic","score_opus":0.003829832698512612,"score_gpt":0.21908227839058556,"score_spread":0.21525244569207294,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416697497","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9339795,0.0003887941,0.061891545,0.00013183027,0.0007330104,0.00059165165,0.00008794103,0.0019864878,0.00020921325],"genre_scores_gemma":[0.99320835,0.00019691893,0.0061475597,0.00007202622,0.00005552346,0.00016184914,0.00002755792,0.00004862135,0.00008158594],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99803394,0.00006941289,0.00060083304,0.0005051593,0.00013832437,0.0006523447],"domain_scores_gemma":[0.99896,0.00022635523,0.00015571452,0.00047885964,0.00011779396,0.00006127247],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007001677,0.0003602364,0.0005296535,0.0004044397,0.00020813126,0.00013454277,0.00019098178,0.00019514497,0.0000785895],"category_scores_gemma":[0.0011277155,0.0003713602,0.00007084628,0.00041769145,0.00009489476,0.00042854028,0.00023787502,0.00022159879,0.000017061046],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052562427,0.00003392596,0.0011554083,0.0007718175,0.0001020015,0.0000066392513,0.000058335736,0.0005226249,0.94582653,0.00025639625,0.0001214557,0.05109233],"study_design_scores_gemma":[0.0012454971,0.000049678973,0.028574178,0.00025451274,0.000053133776,0.00000578032,0.000117407246,0.0020458943,0.955961,0.007402063,0.0038143762,0.00047650674],"about_ca_topic_score_codex":0.000040297084,"about_ca_topic_score_gemma":0.0000149414755,"teacher_disagreement_score":0.05922883,"about_ca_system_score_codex":0.00013208011,"about_ca_system_score_gemma":0.000016244296,"threshold_uncertainty_score":0.9998738},"labels":[],"label_agreement":null},{"id":"W4416697517","doi":"10.1002/adma.71299","title":"Overcoming Material Incompatibility via 2D Free‐Surface Engineering (Adv. Mater. 47/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Nanowire Synthesis and Applications","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut interdisciplinaire d'innovation technologique; Université de Sherbrooke","funders":"","keywords":"Process (computing); Scalability; Strain engineering; Material properties","score_opus":0.005200738704642573,"score_gpt":0.22526888860523533,"score_spread":0.22006814990059276,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416697517","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98008984,0.00012457278,0.014675852,0.00009038303,0.002150403,0.00046306907,0.00025025185,0.0008721715,0.0012834595],"genre_scores_gemma":[0.9840479,0.00006539333,0.015367781,0.000038270144,0.00012584351,0.000115313065,0.000036740086,0.00006110331,0.00014165364],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984585,0.000030950072,0.0005778315,0.00035124892,0.0001622145,0.00041924618],"domain_scores_gemma":[0.9989437,0.000093374365,0.000061301274,0.00077731605,0.00005358569,0.00007074842],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027903396,0.0003186439,0.0004721855,0.000079143996,0.00010026774,0.000119592616,0.00038079516,0.00012578153,0.0004925288],"category_scores_gemma":[0.000068709465,0.0003347365,0.00006223016,0.00021087965,0.000028109724,0.00026409337,0.00016018405,0.000082111284,0.0000890393],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002102069,0.000022229202,0.000035430192,0.00027198606,0.00003504268,0.0000015949321,0.00002669962,0.013770538,0.9825208,0.0011626608,0.00048802758,0.0016439783],"study_design_scores_gemma":[0.00034324682,0.000008483507,0.0011229638,0.00013375844,0.000024831088,0.0000016401674,0.000010844166,0.0011550139,0.9820964,0.001729134,0.013059141,0.00031455595],"about_ca_topic_score_codex":0.00004273746,"about_ca_topic_score_gemma":0.0000068371646,"teacher_disagreement_score":0.012615524,"about_ca_system_score_codex":0.00018053612,"about_ca_system_score_gemma":0.000019437695,"threshold_uncertainty_score":0.9999105},"labels":[],"label_agreement":null},{"id":"W4416812587","doi":"10.1002/adma.202508402","title":"Radiation Effects in Electret Organic Thin‐Film Transistors Due to High Flux and High Dose X‐Ray Irradiation","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Organic Electronics and Photovoltaics","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Nova Scotia Health Authority; Dalhousie University","funders":"H2020 Research Infrastructures; Office of National Intelligence","keywords":"Irradiation; Dosimeter; X-ray photoelectron spectroscopy; Pentacene; XANES; Organic semiconductor; Transistor; Valence (chemistry); Synchrotron radiation; Semiconductor","score_opus":0.0016041986801905547,"score_gpt":0.18552048548683459,"score_spread":0.18391628680664404,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416812587","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99602515,0.00064576254,0.0014024519,0.00014790248,0.0009944427,0.0005160287,0.00002209088,0.00017128131,0.00007490242],"genre_scores_gemma":[0.9987304,0.00026725506,0.00050174334,0.00017476671,0.000054888453,0.00006260126,0.000059524493,0.000041534917,0.000107263695],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99905455,0.00004568266,0.00026983584,0.00022888166,0.00009922178,0.0003018359],"domain_scores_gemma":[0.9996253,0.00008611534,0.00003142968,0.0001783818,0.00002446259,0.00005428162],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019334098,0.00018693534,0.000305537,0.00016618971,0.000045231227,0.000045269848,0.00008674594,0.00011151404,0.00007723075],"category_scores_gemma":[0.00007543215,0.00020544902,0.000015222012,0.00037293034,0.0000075546404,0.00015610259,0.000013099535,0.00009538101,0.000016935475],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000036323516,0.000011580349,0.000014776408,0.00015239499,0.000019396082,0.0000042831184,0.00021049012,0.0061902883,0.98833203,0.0021736887,0.00024986456,0.0026049046],"study_design_scores_gemma":[0.00087288773,0.000082299564,0.017704848,0.000053177228,0.000021300175,0.0000017953894,0.0000054962325,0.00022649254,0.9755188,0.0042378893,0.0010704022,0.00020459823],"about_ca_topic_score_codex":0.00010251256,"about_ca_topic_score_gemma":0.00019717106,"teacher_disagreement_score":0.017690072,"about_ca_system_score_codex":0.00031691327,"about_ca_system_score_gemma":0.00004399819,"threshold_uncertainty_score":0.8377968},"labels":[],"label_agreement":null},{"id":"W4416976784","doi":"10.1002/adma.202518350","title":"Electrically Tunable Friction: From Sticky to Slippery with Ionic Hydrogels","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Dielectric materials and actuators","field":"Engineering","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Self-healing hydrogels; Ionic bonding; Voltage; Fabrication; Ionic liquid; Crawling; Soft robotics; Mechanical energy","score_opus":0.0020314214966527934,"score_gpt":0.18494230598449182,"score_spread":0.18291088448783904,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416976784","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97714627,0.00025508946,0.014396085,0.00009895516,0.0012552885,0.00035302388,0.000049948052,0.00053916627,0.00590616],"genre_scores_gemma":[0.9944662,0.00012009946,0.004253481,0.00027028314,0.00014286971,0.00013434599,0.000023135186,0.00004101487,0.0005486094],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988312,0.00002123872,0.00031064975,0.00027515838,0.00016271666,0.0003990214],"domain_scores_gemma":[0.9994734,0.00006309388,0.000034048528,0.0002849626,0.000058447826,0.0000860645],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010491101,0.00022426565,0.00035914086,0.00012281188,0.00007505755,0.00012355641,0.00017012196,0.0000755795,0.0006459051],"category_scores_gemma":[0.00005563536,0.00019386785,0.0000251244,0.00040247536,0.000010409863,0.00017064293,0.00003313369,0.000055658813,0.00015964676],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009224041,0.000019656005,0.000009596123,0.000046284647,0.00006388231,0.000008382017,0.000028791992,0.0052177142,0.9856247,0.00073764275,0.0015154978,0.0066356156],"study_design_scores_gemma":[0.00038854347,0.00008264092,0.0002633121,0.00008623734,0.000031825424,0.0000016968265,0.000011524546,0.000064619824,0.961833,0.001680931,0.0353026,0.00025307445],"about_ca_topic_score_codex":0.000042667973,"about_ca_topic_score_gemma":0.0000076655715,"teacher_disagreement_score":0.033787105,"about_ca_system_score_codex":0.00012731552,"about_ca_system_score_gemma":0.000045455377,"threshold_uncertainty_score":0.79057014},"labels":[],"label_agreement":null},{"id":"W4417042381","doi":"10.1002/adma.202518621","title":"Wood Hydroplasticization Toward Ultra‐Strong and Self‐Densified Complex Structures","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Materials and Mechanics","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Natural Science Foundation of China; Canada Foundation for Innovation","keywords":"Formability; Flexural strength; Polymer; Elasticity (physics); Material efficiency; Deformation (meteorology); Aluminium; Material properties","score_opus":0.009346858619067602,"score_gpt":0.23299730823356754,"score_spread":0.22365044961449992,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4417042381","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.91077924,0.000230572,0.083887376,0.00003594687,0.002423918,0.00038633405,0.00010299323,0.0008135973,0.0013400433],"genre_scores_gemma":[0.98547685,0.00039526058,0.013818789,0.00007000439,0.00007911601,0.000029200917,0.000051739593,0.00003715857,0.00004187447],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990874,0.000021320562,0.00029753495,0.00022231282,0.00010041864,0.00027101263],"domain_scores_gemma":[0.9996353,0.000039043516,0.000047840385,0.0001741365,0.00005184846,0.000051876144],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007220544,0.00021769677,0.00031760492,0.00007055538,0.00007110621,0.00007139088,0.00008700372,0.000087425215,0.00010270483],"category_scores_gemma":[0.000048192105,0.00021438069,0.000017289613,0.00008918881,0.00002097394,0.0001766994,0.000034723067,0.000045465797,0.000007550308],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024530491,0.000007771382,0.0000011749579,0.00024497375,0.000027823378,0.0000023623045,0.00006835448,0.0075294655,0.9728545,0.017977621,0.00010434844,0.0011570972],"study_design_scores_gemma":[0.0006012476,0.000027669206,0.0002255274,0.000049325354,0.000035346326,0.000006182101,0.000058480335,0.00057950965,0.98200333,0.01046995,0.00571622,0.0002272029],"about_ca_topic_score_codex":0.0000028039058,"about_ca_topic_score_gemma":0.0000026727325,"teacher_disagreement_score":0.074697636,"about_ca_system_score_codex":0.00005458818,"about_ca_system_score_gemma":0.000013024481,"threshold_uncertainty_score":0.87421906},"labels":[],"label_agreement":null},{"id":"W4417104566","doi":"10.1002/adma.202519259","title":"Electronic Excitation‐Driven β‐Ga <sub>2</sub> O <sub>3</sub> Metastability Transformation and Self‐Organization Mechanism: β→κ/γ/δ Phases","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Ga2O3 and related materials","field":"Materials Science","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Particle Physics","funders":"National Natural Science Foundation of China","keywords":"Metastability; Spinel; Molecular dynamics; Nanoscopic scale; Anisotropy; Lattice (music); Oxide; Relaxation (psychology); Phase (matter)","score_opus":0.004107795153662534,"score_gpt":0.22018152504391528,"score_spread":0.21607372989025275,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4417104566","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9877623,0.0002134696,0.007765506,0.00028593754,0.0016976435,0.0013317944,0.00021513632,0.0006234234,0.000104840896],"genre_scores_gemma":[0.9961669,0.0015707215,0.0014093651,0.00020377169,0.00008744493,0.00017292172,0.00031443711,0.00006214133,0.000012340966],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.996548,0.00041590995,0.001079527,0.0007695781,0.00042449386,0.0007624797],"domain_scores_gemma":[0.9983649,0.00015847021,0.00041783488,0.00046171204,0.0004687891,0.00012824507],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0012058582,0.00048971333,0.00074445416,0.00025283394,0.00047455227,0.00035205364,0.00028462822,0.0002992416,0.00019176494],"category_scores_gemma":[0.0003368737,0.000457465,0.000069612724,0.0005464772,0.00012540749,0.001403159,0.00011130346,0.00012671528,0.00015015942],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014029503,0.00016129008,0.0000035137014,0.0003255617,0.000055496414,0.0000037061677,0.0005539995,0.00016572254,0.9884863,0.0091439495,0.000048933547,0.0009112467],"study_design_scores_gemma":[0.0015191752,0.00015893686,0.00026648585,0.000121210614,0.00022169379,0.00002438879,0.00014161028,0.000021796208,0.9693049,0.027545864,0.00024336913,0.00043054624],"about_ca_topic_score_codex":0.000014225742,"about_ca_topic_score_gemma":0.000022066668,"teacher_disagreement_score":0.019181361,"about_ca_system_score_codex":0.00028539862,"about_ca_system_score_gemma":0.00021023757,"threshold_uncertainty_score":0.9997877},"labels":[],"label_agreement":null},{"id":"W4417184981","doi":"10.1002/adma.202505049","title":"Achieving Bichelating Solvation Structure toward Fast Charging and Long Lifespan Aqueous Zn‐Ion Batteries","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced battery technologies research","field":"Engineering","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Suzhou Institute of Nanotechnology, Chinese Academy of Sciences; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Solvation; Steric effects; Aqueous solution; Electrolyte; Anode; Work (physics); Ion; Solvent; Carbon fibers","score_opus":0.009604736539457594,"score_gpt":0.2628477954831534,"score_spread":0.2532430589436958,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4417184981","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95448196,0.0005608602,0.04243663,0.00033680335,0.0006495785,0.0003411436,0.000042212116,0.00094737735,0.00020343023],"genre_scores_gemma":[0.99194336,0.00031333143,0.0073637147,0.00007549433,0.00007997877,0.000050369865,0.000038034865,0.00005030087,0.00008540756],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99863845,0.00003513212,0.00036263536,0.0003271328,0.00017939934,0.000457276],"domain_scores_gemma":[0.99940956,0.00010882322,0.0000709582,0.0003067573,0.00006437048,0.00003952974],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00015281994,0.0002660344,0.000332825,0.00024977734,0.00017086978,0.00015049221,0.00020732703,0.00015763874,0.000074045856],"category_scores_gemma":[0.0002955218,0.00026860522,0.000020982001,0.00026547717,0.00008326881,0.0005822494,0.0002403235,0.00022517079,0.0000067469814],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000019623978,0.000002765006,0.00073645473,0.0004072614,0.000024603854,0.000007134692,0.00015166713,0.0051551526,0.9201491,0.00022908373,0.00002341135,0.07309377],"study_design_scores_gemma":[0.00036003708,0.000029667126,0.004995462,0.00035137727,0.000011970388,0.000011822076,0.0003426709,0.0006475807,0.99045455,0.0016193886,0.00085131277,0.00032418093],"about_ca_topic_score_codex":0.0000047218386,"about_ca_topic_score_gemma":0.000010068926,"teacher_disagreement_score":0.07276959,"about_ca_system_score_codex":0.00015936942,"about_ca_system_score_gemma":0.000014398682,"threshold_uncertainty_score":0.99997663},"labels":[],"label_agreement":null},{"id":"W7083448557","doi":"10.1002/adma.70599","title":"Bioinspired Smart Nanogels for Rapid Blue Laser‐Activated Hemostasis in Gastrointestinal Bleeding (Adv. Mater. 38/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Geochemistry and Geologic Mapping","field":"Computer Science","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"","keywords":"Hemostasis; Gastrointestinal bleeding; Hemostatics; Hemostatic Agent; Biocompatible material","score_opus":0.016145693268052715,"score_gpt":0.25815943216891085,"score_spread":0.24201373890085814,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7083448557","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9375709,0.000055694236,0.053374942,0.0033562328,0.0009724627,0.0008540113,0.000062242776,0.0004214506,0.003332031],"genre_scores_gemma":[0.9375837,0.000013972913,0.060300607,0.0003627789,0.000047284182,0.00021762782,0.000038433926,0.000008814261,0.0014268089],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99790454,0.000070062226,0.0005657882,0.00066469115,0.0001569781,0.00063794566],"domain_scores_gemma":[0.9987936,0.00021287407,0.00020289776,0.00050420617,0.00021335705,0.000073065035],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00060680934,0.00028939548,0.00043873282,0.00016189877,0.00016297601,0.00017137386,0.00067360286,0.00008914252,0.00010185457],"category_scores_gemma":[0.0006055549,0.00028690274,0.0000674483,0.0005015798,0.00005526777,0.00044593355,0.0003227474,0.000085489766,0.000017247496],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000922374,0.00005458344,0.00018284841,0.0002305946,0.0000119939305,0.000022900806,0.00006764006,0.00034751062,0.9935534,0.0014433739,0.00038692643,0.0036059776],"study_design_scores_gemma":[0.0010902552,0.00009038601,0.0003646912,0.00058612257,0.0000063215552,0.000026014563,0.00007922873,0.0003270356,0.9848053,0.0045500905,0.00781796,0.0002566305],"about_ca_topic_score_codex":0.00002030622,"about_ca_topic_score_gemma":0.0000040371215,"teacher_disagreement_score":0.0087481495,"about_ca_system_score_codex":0.000101280806,"about_ca_system_score_gemma":0.000102883074,"threshold_uncertainty_score":0.99995834},"labels":[],"label_agreement":null},{"id":"W7083811356","doi":"10.1002/adma.202470319","title":"Blue Laser Triggered Hemostatic Peptide Hydrogel for Gastrointestinal Bleeding Treatment (Adv. Mater. 40/2024)","year":2024,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Plant-Microbe Interactions and Immunity","field":"Agricultural and Biological Sciences","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; University of Manitoba","funders":"","keywords":"Peptide; Gastrointestinal bleeding; Endoscopic treatment; Hemostasis; Hemostatics; Coagulation","score_opus":0.02407841341080022,"score_gpt":0.264604160557787,"score_spread":0.2405257471469868,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7083811356","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966216,0.000087203814,0.000050838906,0.00043171772,0.0008973812,0.0004193575,0.0011018798,0.00016115107,0.0002288485],"genre_scores_gemma":[0.9919244,0.00008214726,0.001928102,0.00009905904,0.00022225257,0.00016891265,0.00040119633,0.0000043810996,0.005169573],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988997,0.000030630355,0.0003190019,0.00030522622,0.00009099882,0.00035444077],"domain_scores_gemma":[0.9994053,0.00032423838,0.000074936805,0.00006575701,0.000058838763,0.00007088818],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016191794,0.0002145855,0.00026262645,0.000021467582,0.00019950989,0.00023494089,0.00012940439,0.0000364396,0.0014124044],"category_scores_gemma":[0.000057699268,0.000087417604,0.0000993139,0.00011539024,0.000028939132,0.00027687487,0.000036734964,0.00005105301,0.0001463846],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017765602,0.000065177606,0.000008729164,0.000033326203,0.000023535868,0.000020511608,0.000038229977,0.000017604145,0.9900775,0.0000548349,0.0013299743,0.008152919],"study_design_scores_gemma":[0.0002521164,0.0006694874,0.00021349042,0.00027507418,0.000035809036,0.00023690362,0.00028360123,0.000063680855,0.9205257,0.00065533974,0.076586224,0.00020251644],"about_ca_topic_score_codex":0.00017529042,"about_ca_topic_score_gemma":0.00009119602,"teacher_disagreement_score":0.07525625,"about_ca_system_score_codex":0.00012370279,"about_ca_system_score_gemma":0.000014528171,"threshold_uncertainty_score":0.99950045},"labels":[],"label_agreement":null},{"id":"W7116727974","doi":"10.1002/adma.202519678","title":"Field‐Free, Deterministic Giant Spin‐Orbit Torque Switching of 1.3 T Perpendicular Magnetization With Symmetry‐Lifted Topological Surface States","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Topological Materials and Phenomena","field":"Physics and Astronomy","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Natural Sciences and Engineering Research Council of Canada; U.S. Air Force; Air Force Office of Scientific Research; University of Waterloo; Killam Trusts; Canada First Research Excellence Fund; Innovation, Science and Economic Development Canada","keywords":"Spintronics; Perpendicular; Topological insulator; Magnetization; Topology (electrical circuits); Heterojunction; Torque; Surface states","score_opus":0.003799567073541031,"score_gpt":0.2457682786435676,"score_spread":0.24196871157002656,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7116727974","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9804428,0.00006674054,0.016091194,0.00023223412,0.0003760639,0.00033787437,0.00013119374,0.00004906198,0.0022728255],"genre_scores_gemma":[0.9940938,0.000016267524,0.005431395,0.00014147545,0.00007155603,0.000028276561,0.000050725877,0.000014449132,0.00015209206],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870867,0.00010061845,0.00045015351,0.00031294063,0.00013960376,0.00028801968],"domain_scores_gemma":[0.99916613,0.00014454612,0.00021373149,0.00033163646,0.00008902057,0.000054920853],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017551516,0.00022237522,0.00047185103,0.000038744736,0.00010060813,0.00007071677,0.00023524833,0.00006590053,0.0020792326],"category_scores_gemma":[0.000050667197,0.00016001325,0.00004411068,0.00013177092,0.0000544285,0.00011001029,0.00013018418,0.00006456446,0.000008824084],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00039265963,0.00012292738,0.0016792237,0.00013491405,0.000058423735,0.0000082986635,0.000071073984,0.00040928487,0.8485687,0.14655897,0.000034502613,0.0019610669],"study_design_scores_gemma":[0.0010827158,0.00074087735,0.004451131,0.00017796535,0.000067486595,0.0000016349678,0.00026460452,0.000046898313,0.8668006,0.12543237,0.0006108367,0.000322861],"about_ca_topic_score_codex":0.00027643825,"about_ca_topic_score_gemma":0.0000046889795,"teacher_disagreement_score":0.021126602,"about_ca_system_score_codex":0.000020488367,"about_ca_system_score_gemma":0.000037975602,"threshold_uncertainty_score":0.998833},"labels":[],"label_agreement":null},{"id":"W7116729019","doi":"10.1002/adma.71802","title":"Mussel‐Inspired Molecular Strategies for Fabricating Functional Materials With Underwater Adhesion and Self‐Healing Properties (Adv. Mater. 51/2025)","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Polymer Surface Interaction Studies","field":"Materials Science","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"","keywords":"Self-healing hydrogels; Adhesion; Underwater; Biomimetic materials; Biomimetics; Polymer","score_opus":0.022184706586295018,"score_gpt":0.276281907513982,"score_spread":0.254097200927687,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7116729019","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98651195,0.00048475192,0.00919205,0.00044708585,0.0014801593,0.001047333,0.00012476314,0.00043518448,0.00027674116],"genre_scores_gemma":[0.9866751,0.00006244377,0.011425505,0.00040464225,0.0000811242,0.0007853733,0.00003117281,0.000059275088,0.00047540021],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9973842,0.00016504266,0.0007520973,0.0007668529,0.00033589356,0.00059593684],"domain_scores_gemma":[0.9986857,0.00017371844,0.00035357507,0.0003762766,0.0003362319,0.000074469826],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005669035,0.00045053347,0.0006665523,0.00015757182,0.0004836593,0.00067027943,0.00020944902,0.000118619384,0.00023815839],"category_scores_gemma":[0.000090917325,0.00034061976,0.00004457862,0.00014450129,0.00020723887,0.0010619537,0.00020931382,0.000059642975,0.000040036182],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006947045,0.000061183746,0.000042323354,0.0005684119,0.00008037952,0.0000052620567,0.00035437773,0.00029565836,0.99620074,0.0014557317,0.000115325354,0.0001258874],"study_design_scores_gemma":[0.0009950701,0.00016116051,0.0005381293,0.00049543846,0.00009497718,0.000011824221,0.0015108892,0.000015246261,0.9933775,0.0013626768,0.0010365419,0.00040052482],"about_ca_topic_score_codex":0.00014799778,"about_ca_topic_score_gemma":0.000020000598,"teacher_disagreement_score":0.0028232334,"about_ca_system_score_codex":0.00012835546,"about_ca_system_score_gemma":0.00015243063,"threshold_uncertainty_score":0.9999046},"labels":[],"label_agreement":null},{"id":"W7117156471","doi":"10.1002/adma.202515355","title":"High‐Performance Zero‐Gap Glycerol‐Fed Electrolyzer for C <sub>3</sub> Chemicals and Hydrogen Production","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Electrocatalysts for Energy Conversion","field":"Energy","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Mitacs; McMaster University","keywords":"Electrolyte; Anode; Electrochemistry; Glycerol; Electrolysis; Hydrogen production; Oxygen evolution; Platinum; Electrolysis of water","score_opus":0.004853763077502851,"score_gpt":0.2139861957244417,"score_spread":0.20913243264693884,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7117156471","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973773,0.0002450235,0.00024727732,0.00035051556,0.0006293993,0.0005152804,0.0000051432194,0.0002623376,0.00036773694],"genre_scores_gemma":[0.997182,0.00046188652,0.00061008945,0.000241805,0.00017499381,0.0003757588,0.0001541019,0.000056938316,0.0007423999],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981602,0.000041664698,0.0004314989,0.0006100478,0.00022085448,0.00053572643],"domain_scores_gemma":[0.99906915,0.00005766084,0.00017509685,0.00042079904,0.00021277994,0.00006451434],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00035177998,0.00029808373,0.00044606611,0.00013853383,0.00018955437,0.00003884625,0.00018082172,0.00016830051,0.00001718424],"category_scores_gemma":[0.00023802875,0.0002933264,0.00005326517,0.00025308403,0.00006614838,0.0004166192,0.0000808733,0.00007836865,0.00002831245],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010062663,0.000032880173,0.0000072604753,0.00016547421,0.00008100245,6.4712106e-7,0.000014954642,0.000408554,0.9832039,0.004316486,0.00034928008,0.01041333],"study_design_scores_gemma":[0.00124653,0.00017011154,0.00004902048,0.00007332961,0.00007861618,0.0000075507255,0.0000032243197,0.000026391075,0.98347133,0.00813993,0.0064559905,0.00027799353],"about_ca_topic_score_codex":0.00002959506,"about_ca_topic_score_gemma":0.00002608795,"teacher_disagreement_score":0.010135337,"about_ca_system_score_codex":0.00022712226,"about_ca_system_score_gemma":0.00006396499,"threshold_uncertainty_score":0.9999519},"labels":[],"label_agreement":null},{"id":"W7117167236","doi":"10.1002/adma.202514620","title":"A Retina‐Inspired Organic Iono‐Optoelectronic Synapse","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ministry of Education and Child Care","funders":"","keywords":"Neuromorphic engineering; Synapse; Ionic bonding; Polymer; Coupling (piping); Bioelectronics; Transistor; Acceptor","score_opus":0.0036201241587937244,"score_gpt":0.21669504736812312,"score_spread":0.2130749232093294,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7117167236","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98729837,0.0006917004,0.007971525,0.00007973562,0.0010906996,0.00025277838,0.000007116492,0.00091539737,0.0016926528],"genre_scores_gemma":[0.998005,0.00020811263,0.0009801176,0.00015486998,0.00008543112,0.000034642602,0.000011411622,0.000039297724,0.0004811158],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988897,0.000032599426,0.00031914457,0.0002522438,0.00008872039,0.00041759096],"domain_scores_gemma":[0.9995059,0.00006112404,0.000044471264,0.00030107237,0.00004271534,0.000044754415],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001384648,0.00021235061,0.0002955238,0.00008109991,0.00010818812,0.000033150147,0.00018311881,0.00007403574,0.00019462696],"category_scores_gemma":[0.000104352584,0.0002182321,0.000038095022,0.0002689934,0.000032538086,0.00019077047,0.00004366547,0.000117802774,0.00007952718],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000328037,0.0000071513073,0.000002349451,0.00010004186,0.000018354884,0.0000073799238,0.000020427973,0.003569974,0.9914895,0.001506929,0.00013729051,0.0031077643],"study_design_scores_gemma":[0.00038924138,0.00003797399,0.00007434454,0.00010157893,0.000014401509,0.0000074792288,0.00001478941,0.00006226257,0.9909838,0.0035489888,0.004555837,0.00020931622],"about_ca_topic_score_codex":7.053597e-7,"about_ca_topic_score_gemma":0.0000027464025,"teacher_disagreement_score":0.010706606,"about_ca_system_score_codex":0.0001460851,"about_ca_system_score_gemma":0.000027634658,"threshold_uncertainty_score":0.8899247},"labels":[],"label_agreement":null},{"id":"W7117477100","doi":"10.1002/adma.71859","title":"Toward the Nobel Prize: Dissecting Fundamental Principles and Applications of MOF and COF Materials","year":2025,"lang":"en","type":"article","venue":"Advanced Materials","topic":"Metal-Organic Frameworks: Synthesis and Applications","field":"Chemistry","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Reticular connective tissue; Porosity; Covalent bond; Space (punctuation); Chemical space; Porous medium","score_opus":0.016494440348289657,"score_gpt":0.27109059479925407,"score_spread":0.2545961544509644,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7117477100","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9957847,0.00052039494,0.001202585,0.00042781554,0.00009037697,0.00038750423,0.00023208829,0.000047686266,0.0013068377],"genre_scores_gemma":[0.9961834,0.00039175962,0.002244196,0.000053005042,0.000081297294,0.0004602716,0.000024573726,0.000017513352,0.0005439684],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99898934,0.000025491487,0.00044225712,0.0002768733,0.0001087771,0.00015728455],"domain_scores_gemma":[0.9990285,0.00024337372,0.00024039518,0.00038504848,0.000067545065,0.00003511557],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027086644,0.00014789637,0.00030418282,0.000025130792,0.00016412979,0.00008585628,0.00017446702,0.00007299363,0.0005682683],"category_scores_gemma":[0.00020453845,0.000111307425,0.000021435955,0.000090602094,0.0001518447,0.00006979668,0.00018680851,0.00005342597,0.0000034835366],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020591275,0.000035066172,0.00009767096,0.00034511124,0.000034569133,1.1874864e-7,0.00012198037,0.0000016926508,0.97804964,0.017323026,0.00001545056,0.003955079],"study_design_scores_gemma":[0.00021030399,0.0000042131564,0.0007792291,0.00013520803,0.000051170264,0.000003575463,0.0006460285,0.0000020952955,0.9873292,0.0036165956,0.007119043,0.00010332509],"about_ca_topic_score_codex":0.000024734603,"about_ca_topic_score_gemma":0.0000035331325,"teacher_disagreement_score":0.013706431,"about_ca_system_score_codex":0.000022369093,"about_ca_system_score_gemma":0.000023670089,"threshold_uncertainty_score":0.62221396},"labels":[],"label_agreement":null}]}