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Electrode/Electrolyte Synergy for Concerted Promotion of Electron and Proton Transfers toward Efficient Neutral Water Oxidation
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2023-06-06 , DOI: 10.1002/anie.202303200
Yaming Hao 1 , Yikun Kang 1 , Shaoyan Wang 1 , Zhe Chen 1 , Can Lei 1 , Xueting Cao 1 , Lin Chen 1 , Yefei Li 1 , Zhipan Liu 1 , Ming Gong 1
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2023-06-06 , DOI: 10.1002/anie.202303200
Yaming Hao 1 , Yikun Kang 1 , Shaoyan Wang 1 , Zhe Chen 1 , Can Lei 1 , Xueting Cao 1 , Lin Chen 1 , Yefei Li 1 , Zhipan Liu 1 , Ming Gong 1
Affiliation
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An electrode/electrolyte synergy strategy is devised to enhance the neutral water oxidation. The concerted promotion of electron transfer via the IrOx/NiOOH interface and proton transfer via the near-surface ion environment synergistically accelerated the proton-coupled electron transfer events. The expedited kinetics enabled the direct detection of oxygen intermediates at the electrode-electrolyte interface.
中文翻译:
电极/电解质协同作用,协同促进电子和质子转移,实现高效中性水氧化
设计了电极/电解质协同策略来增强中性水的氧化。通过IrO x /NiOOH界面协同促进电子转移和通过近表面离子环境的质子转移协同加速了质子耦合电子转移事件。加速的动力学使得能够直接检测电极-电解质界面处的氧中间体。
更新日期:2023-06-06
中文翻译:
电极/电解质协同作用,协同促进电子和质子转移,实现高效中性水氧化
设计了电极/电解质协同策略来增强中性水的氧化。通过IrO x /NiOOH界面协同促进电子转移和通过近表面离子环境的质子转移协同加速了质子耦合电子转移事件。加速的动力学使得能够直接检测电极-电解质界面处的氧中间体。
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