Unraveling the Harmonious Coexistence of Ruthenium States on a Self-Standing Electrode for Enhanced Hydrogen Evolution Reaction-Energy & Environmental Materials2024年06期-手机知网

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Unraveling the Harmonious Coexistence of Ruthenium States on a Self-Standing Electrode for Enhanced Hydrogen Evolution Reaction

Department of Materials Science and Engineering,Korea University;Department of Chemical and Biomolecular Engineering,Institute of Emergent Materials,Sogang University;Department of Cogno-Mechatronics Engineering,College of Nanoscience and Nanotechnology,Pusan National University;Department of Materials Science and Engineering,Research Institute of Advanced Materials,Seoul National University;School of Chemical Engineering and Material Science,Chung-Ang University | Joonhee Ma Jin Hyuk Cho Chaehyeon Lee Moon Sung Kang Sungkyun Choi Ho Won Jang Sang Hyun Ahn Seoin Back Soo Young Kim

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The development of cost-effective,highly efficient,and durable electrocatalysts has been a paramount pursuit for advancing th...

机　构:

Department of Materials Science and Engineering,Korea University；Department of Chemical and Biomolecular Engineering,Institute of Emergent Materials,Sogang University；Department of Cogno-Mechatronics Engineering,College of Nanoscience and Nanotechnology,Pusan National University；Department of Materials Science and Engineering,Research Institute of Advanced Materials,Seoul National University；School of Chemical Engineering and Material Science,Chung-Ang University；

领　域:

无机化工；有机化工；

关键词:

electrocatalysis；electronic coupling effect；hydrogen evolution reaction；self-standing electrode；

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Energy & Environmental Materials

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