Valence oscillation and dynamic active sites in monolayer NiCo hydroxides for water oxidation

被引:0
|
作者
Jianxin Kang
Xiaoyi Qiu
Qi Hu
Jun Zhong
Xiang Gao
Rong Huang
Chengzhang Wan
Li-Min Liu
Xiangfeng Duan
Lin Guo
机构
[1] Beihang University,School of Chemistry, Beijing Advanced Innovation Center for Biomedical Engineering, Key Laboratory of Bio
[2] Beijing Computational Science Research Center,Inspired Smart Interfacial Science and Technology
[3] Beihang University,School of Physics
[4] Soochow University,Jiangsu Key Laboratory for Carbon
[5] Center for High Pressure Science and Technology Advanced Research,based Functional Materials and Devices, Institute of Functional Nano and Soft Materials
[6] East China Normal University,Key Laboratory of Polar Materials and Devices
[7] University of California,Department of Chemistry and Biochemistry
[8] Los Angeles,undefined
来源
Nature Catalysis | 2021年 / 4卷
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摘要
Monolayer materials are endowed with an additional degree of freedom to modulate electronic structures and catalytic performances. Here, we report a direct synthesis of monolayer Ni(OH)2 on electrodes by in situ electrochemical conversion and a fundamental investigation of their catalytic activity. The monolayer structure greatly promotes hydrogen and oxygen release processes to produce dynamic active sites for the oxygen evolution reaction (OER) at a lower potential. Lattice doping with cobalt further tunes the electronic structure to reduce the overpotential. In situ experiments revealed Ni and Co valence state oscillation in NiCo hydroxides, which has been attributed to sequential dehydrogenation and deoxygenation processes, and fundamentally contributes to the dynamic generation of OER active sites. This study defines an in situ conversion process to yield monolayer layered double hydroxides (LDHs) and establishes a critical fundamental understanding of the origin of the active sites in monolayer LDHs for the OER.
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页码:1050 / 1058
页数:8
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