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RETRACTED ARTICLE: Significantly enhanced critical current density and pinning force in nanostructured, (RE)BCO-based, coated conductor

2024· article· en· 3 citations· W4401397401 sur OpenAlex· 10.1038/s41467-024-50838-4

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Dossier post-publication

Nature
Retraction
Motif
Error in Analyses;Error in Methods;Error in Results and/or Conclusions;Error in Text;Investigation by Third Party;
Date
10/23/2024 0:00
Signalé par OpenAlex ?
Oui

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Résumé

High-temperature superconducting wires have many large-scale, niche applications such as commercial nuclear fusion as well as numerous other large-scale applications in the electric power industry and in the defense, medical and transportation industries. However, the price/performance metric of these coated conductor wires is not yet favorable to enable and realize most large-scale applications. Here we report on probing the limits of J c (H, T) possible via defect engineering in heteroepitaxially deposited high-temperature superconducting thin-films on coated conductor substrates used for long-length wire fabrication. We report record values of J c (H, T) and pinning force, F p (H, T) in (RE)BCO films with self-assembled BaZrO3 nanocolumns deposited on a coated conductor substrate. A J c of ~190 MA/cm2 at 4.2 K, self-field and ~90 MA/cm2, at 4.2 K, 7 T was measured. At 20 K, J c of over 150 MA/cm2 at self-field and over 60 MA/cm2 at 7 T was observed. A very high pinning force, F p, of ~6.4 TN/m3 and ~4.2 TN/m3 were observed at 7 T, 4.2 K and 7 T, 20 K respectively. We report on the highest values of J c and F p obtained to date for all fields and operating temperatures from 4.2 K to 77 K. These results demonstrate that significant performance enhancements and hence far more favorable price/performance metrics are possible in commercial high-temperature superconducting wires. In this work, authors demonstrate defect engineering in heteroepitaxially deposited high-temperature superconducting thin-films on coated conductor substrates achieving significant performance enhancement in the critical current density and pinning force achievable in coated conductors.

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La notice

Revue
Nature Communications
Thématique
Electronic and Structural Properties of Oxides
Domaine
Materials Science
Établissements canadiens
McMaster University
Organismes subventionnaires
Division of Materials ResearchOffice of Naval ResearchShanghai Jiao Tong UniversityCornell Center for Materials ResearchU.S. Department of Defense
Mots-clés
ConductorCritical currentCurrent (fluid)Materials scienceCurrent densityCondensed matter physicsNanotechnologyPhysicsSuperconductivityComposite material
Résumé présent dans OpenAlex
oui