1. Phase‐Junction Electrocatalysts towards Enhanced Hydrogen Evolution Reaction in Alkaline Media.
- Author
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Fu, Qiang, Wang, Xianjie, Han, Jiecai, Zhong, Jun, Zhang, Tongrui, Yao, Tai, Xu, Chengyan, Gao, Tangling, Xi, Shibo, Liang, Ce, Xu, Lingling, Xu, Ping, and Song, Bo
- Subjects
HYDROGEN evolution reactions ,CATALYTIC activity ,WATER electrolysis ,HYDROGEN production ,ELECTROCATALYSTS ,HYBRID systems ,CATALYSTS - Abstract
To ensure sustainable hydrogen production by water electrolysis, robust, earth‐abundant, and high‐efficient electrocatalysts are required. Constructing a hybrid system could lead to further improvement in electrocatalytic activity. Interface engineering in composite catalysts is thus critical to determine the performance, and the phase‐junction interface should improve the catalytic activity. Here, we show that nickel diphosphide phase junction (c‐NiP2/m‐NiP2) is an effective electrocatalyst for hydrogen production in alkaline media. The overpotential (at 10 mA cm−2) for NiP2‐650 (c/m) in alkaline media could be significantly reduced by 26 % and 96 % compared with c‐NiP2 and m‐NiP2, respectively. The enhancement of catalytic activity should be attributed to the strong water dissociation ability and the rearrangement of electrons around the phase junction, which markedly improved the Volmer step and benefited the reduction process of adsorbed protons. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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