化学
催化作用
氢
材料科学
分解水
放射化学
生物化学
光催化
有机化学
作者
Ram Subbaraman,Dušan Tripković,Dušan Strmčnik,Kee‐Chul Chang,Masanobu Uchimura,A. P. Paulikas,Vojislav R. Stamenković,Nenad M. Marković
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2011-12-02
卷期号:334 (6060): 1256-1260
被引量:3014
标识
DOI:10.1126/science.1211934
摘要
Improving the sluggish kinetics for the electrochemical reduction of water to molecular hydrogen in alkaline environments is one key to reducing the high overpotentials and associated energy losses in water-alkali and chlor-alkali electrolyzers. We found that a controlled arrangement of nanometer-scale Ni(OH)(2) clusters on platinum electrode surfaces manifests a factor of 8 activity increase in catalyzing the hydrogen evolution reaction relative to state-of-the-art metal and metal-oxide catalysts. In a bifunctional effect, the edges of the Ni(OH)(2) clusters promoted the dissociation of water and the production of hydrogen intermediates that then adsorbed on the nearby Pt surfaces and recombined into molecular hydrogen. The generation of these hydrogen intermediates could be further enhanced via Li(+)-induced destabilization of the HO-H bond, resulting in a factor of 10 total increase in activity.
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