期刊论文

Lin, YW;Ou, X;Feng, M

英文

Nano Energy

2211-2855

2023

118

109020

10.1016/j.nanoen.2023.109020

CRediT authorship contribution statement Chunhui Wang: Investigation, Data curation, Writing – original draft. Keyi Xian: Data curation. Shuangshuang Zhao: Formal analysis. Shuailing Ma: Investigation. Haozhe Qin: Data curation. Dong Wang: Writing – review & editing. Akhil Tayal: Project administration. Yanfei Wang: Supervision. Ying-Wu Lin: Writing – review & editing, acquisition. Ming Feng: Project administration, acquisition. Xing Ou: Conceptualization, Writing – review & editing, Project administration, Funding

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Interfacial engineering, especially atomic substitution at the interface or inside the nanomaterials, is a promising strategy for fabricating high-performance electrode materials. Herein, an interfacial modification strategy was reported to develop cobaltous sulfide (CoS2) nanomaterials with Fe clusters modified on their interface and Fe single atoms partially substituted Co atoms in CoS2 (Fe-CFS), which were further wrapped by graphene networks, forming highly active Fe-CFS@graphene nanomaterials (Fe-CFS@C) with triple reaction interfaces. As ...