催化作用
分解水
析氧
钒
贵金属
电催化剂
电解水
制氢
化学工程
吸附
氢
化学
氧气
材料科学
无机化学
氢燃料
金属
电解
物理化学
冶金
电化学
电极
工程类
生物化学
有机化学
光催化
电解质
作者
Yu Wang,Yanqing Jiao,Haijing Yan,Ganceng Yang,Chungui Tian,Aiping Wu,Yue Liu,Honggang Fu
出处
期刊:Angewandte Chemie
[Wiley]
日期:2022-01-05
卷期号:61 (12): e202116233-e202116233
被引量:183
标识
DOI:10.1002/anie.202116233
摘要
Abstract A proton exchange membrane water electrolyzer (PEMWE) in acidic medium is a hopeful scenario for hydrogen production using renewable energy, but the grand challenge lies in substituting noble‐metal catalysts. Herein, a robust electrocatalyst of V−CoP 2 porous nanowires arranged on a carbon cloth is successfully fabricated by incorporating vanadium into the CoP 2 lattice. Structural characterizations and theoretical analysis indicate that lattice expansion of CoP 2 caused by V incorporation results in the upshift of the d‐band center, which is conducive to hydrogen adsorption for boosting the hydrogen evolution reaction (HER). Besides, V promotes surface reconstruction to generate a thicker Co 3 O 4 layer with an oxygen vacancy that enhances acid‐corrosion resistance and optimizes the adsorption of water and oxygen‐containing species, thus improving activity and stability toward the oxygen evolution reaction (OER). Accordingly, it presents a superior acidic overall water splitting activity (1.47 V@10 mA cm −2 ) to Pt−C/CC||RuO 2 /CC (1.59 V@10 mA cm −2 ), and remarkable stability. This work proposes a new route to design efficient non‐noble metal electrocatalysts for PEMWE.
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