{"id":"W2110264357","doi":"10.1039/c3ee42573h","title":"Enhanced thermal conductivity of phase change materials with ultrathin-graphite foams for thermal energy storage","year":2013,"lang":"en","type":"article","venue":"Energy & Environmental Science","topic":"Phase Change Materials Research","field":"Engineering","cited_by":587,"is_retracted":false,"has_abstract":true,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; Advanced Research Projects Agency; U.S. Department of Energy","keywords":"Thermal conductivity; Phase-change material; Graphite; Thermal energy storage; Materials science; Phase change; Enthalpy of fusion; Composite material; Volume (thermodynamics); Phase (matter); Thermal; Energy storage; Fusion; Thermal insulation; Melting point; Thermodynamics; Chemistry; Organic chemistry","routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false,"invisible_to_affiliation_only":true},"retraction":null,"screen":null,"machine_scores":{"provisional":true,"baseline":true,"maturity_gate_passed":false,"score_opus":0.02194644151766796,"score_gpt":0.2406336816756826,"score_spread":0.2186872401580147,"validation_status":"score_only:v0-immature-baseline","note":"Baseline scores from an immature model (maturity gate not passed). Scores rank; they never assert a category."}}