期刊
SMALL
卷 18, 期 40, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202204758
关键词
anion exchange membrane (AEM) electrolyzers; active sites; elemental doping; heterointerfaces; hydrogen evolution reaction; metal phosphides
类别
资金
- Australian Renewable Energy
- Australian Research Council [FT170100224, DP210103892, IC200100023]
- Tsinghua National Laboratory for Information Science and Technology
- Australian Research Council [IC200100023] Funding Source: Australian Research Council
In this study, a V-doped Ni2P/Ni12P5 electrocatalyst was fabricated through V doping and heterointerfaces effect, leading to improved electronic structure and active sites for enhanced hydrogen evolution reaction in alkaline media.
Regulating the electronic structure and intrinsic activity of catalysts' active sites with optimal hydrogen intermediates adsorption is crucial to enhancing the hydrogen evolution reaction (HER) in alkaline media. Herein, a heterostructured V-doped Ni2P/Ni12P5 (V-Ni2P/Ni12P5) electrocatalyst is fabricated through a hydrothermal treatment and controllable phosphidation process. In comparison with pure-phase V-Ni2P, in/ex situ characterizations and theoretical calculations reveal a redistribution of electrons and active sites in V-Ni2P/Ni12P5 due to the V doping and heterointerfaces effect. The strong coupling between Ni2P and Ni12P5 at the interface leads to an increased electron density at interfacial Ni sites while depleting at P sites, with V-doping further promoting the electron accumulation at Ni sites. This is accompanied by the change of active sites from the anionic P sites to the interfacial Ni-V bridge sites in V-Ni2P/Ni12P5. Benefiting from the interface electronic structure, increased number of active sites, and optimized H-adsorption energy, the V-Ni2P/Ni12P5 exhibits an overpotential of 62 mV to deliver 10 mA cm(-2) and excellent long-term stability for HER. The V-Ni2P/Ni12P5 catalyst is applied for anion exchange membrane water electrolysis to deliver superior performance with a current density of 500 mA cm(-2) at a cell voltage of 1.79 V and excellent durability.
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