Regulating electronic structure of porous nickel nitride nanosheet arrays by cerium doping for energy-saving hydrogen production 被引量：4

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摘要 Water electrolysis for energy-efficient H_(2)production coupled with hydrazine oxidation reaction(HzOR)is prevailing,while the sluggish electrocatalysts are strongly hindering its scalable application.Herein,we schemed a novel porous Ce-doped Ni3N nanosheet arrays grown on nickel foam(Ce-Ni3N/NF)as a remarkable bifunctional catalyst for both hydrogen evolution reaction and HzOR.Significantly,the overall hydrazine splitting system can achieve low cell voltages of 0.156 and 0.671 V at 10 and 400 mA·cm^(−2),and the system is remarkably stable to operate over 100 h continuous test at the high-current-density of 400 mA·cm^(−2).Various characterizations prove that the porous nanosheet arrays expose more active sites,and more excellent diffusion kinetics and lower charge-transfer resistance,therefore boosting catalytic performance.Furthermore,density functional theory calculation reveals that the incorporation of Ce can effectively optimize the free energy of hydrogen adsorption and promote intrinsic catalytic activity of Ni_(3)N.

作者 Rui-Qing Li Suyuan Zeng Bin Sang Chaozhuang Xue Konggang Qu Yu Zhang Wei Zhang Guangyu Zhang Xinghui Liu Jie Deng Olivier Fontaine Yachao Zhu

机构地区 School of Textile and Clothing School of Chemistry and Chemical Engineering Department of Chemistry Institute for Advanced Study&College of Food and Biological Engineering Molecular Electrochemistry for Energy laboratory Institut Universitaire de France ICGM

出处《Nano Research》 SCIE EI CSCD 2023年第2期2543-2550,共8页 纳米研究（英文版）

基金 supported by Nantong University Analysis&Testing Center。

关键词 ELECTROCATALYSIS cerium doping hydrogen evolution reaction hydrazine oxidation reaction adsorption free energy

分类号 O64 [理学—物理化学]

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Regulating electronic structure of porous nickel nitride nanosheet arrays by cerium doping for energy-saving hydrogen production 被引量：4

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