异核分子
同核分子
催化作用
双金属片
双原子分子
化学
化学物理
析氧
吸附
密度泛函理论
物理化学
计算化学
分子
有机化学
电极
电化学
作者
Ninggui Ma,Chihon Leung,Yuhang Wang,Yaqin Zhang,Shuang Luo,Han Liu,Bochun Liang,Changxiong Huang,Zhanhua Wei,Yang Ren,Jun Fan
出处
期刊:Small methods
[Wiley]
日期:2025-06-17
卷期号:9 (8): e2500310-e2500310
被引量:4
标识
DOI:10.1002/smtd.202500310
摘要
Oxygen reduction reactions (ORR) and oxygen evolution reactions (OER) are pivotal in energy conversion. Herein, first-principles calculations are employed to explore cooperative catalysis's influence on catalysts with doping and adsorption configurations. Specifically, doped and adsorbed metal atoms are explored on MXene, analyze bimetallic system's electronic properties via density of states, and investigate catalytic activity in homonuclear and heteronuclear diatomic cooperative reactions. It is found that heteronuclear diatomic cooperation substantially enhances catalyst activity, unveiling high-efficacy catalysts like Ni&/Co*OOH (ηORR/OER/Bi = 0.29/0.37/0.66 V) and Ni&/Co*O (ηORR/OER/Bi = 0.40/0.16/0.56 V). Such ultra-high catalytic activity is primarily attributed to the repulsive interactions between catalytic intermediates at neighboring active sites, which modulate the charge distribution at the target sites during the catalytic process, as well as the density of atomic orbital centers of the catalytic atoms. The findings offer a potential explanation for the discrepancies observed between theoretical calculations and experimental results.
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