典型文献
Optimized transition metal-oxygen covalency promotes neutral-pH oxygen evolution catalysis
文献摘要:
Water electrolysis using renewable electricity provides an emission-free route to produce hydrogen in a green manner[1].Neutral-pH water splitting could avoid the corrosion problem and offer a benign environment to expand the choice of catalysts and bipolar plates[2].However,a substantial overpotential is generally required due to the sluggish kinetic process for anodic oxygen evolution reaction(OER).Although Ru and Ir-based noble metals have fast OER kinetics,their high cost and limited resources impede their large-scale application.Therefore,developing more active catalysts with low cost for neutral-pH OER becomes important yet challenging.
文献关键词:
中图分类号:
作者姓名:
Xun Wang
作者机构:
Laboratory of Organic Optoelectronics and Molecular Engineering,Department of Chemistry,Tsinghua University,Beijing 100084,China
文献出处:
引用格式:
[1]Xun Wang-.Optimized transition metal-oxygen covalency promotes neutral-pH oxygen evolution catalysis)[J].中国科学:材料科学(英文),2022(11):3182-3183
A类:
covalency
B类:
Optimized,transition,oxygen,promotes,neutral,evolution,catalysis,Water,electrolysis,using,renewable,electricity,provides,emission,free,route,produce,hydrogen,green,manner,Neutral,water,splitting,could,avoid,corrosion,problem,offer,benign,environment,expand,choice,catalysts,bipolar,plates,However,substantial,overpotential,generally,required,due,sluggish,process,anodic,reaction,OER,Although,Ru,Ir,noble,metals,have,fast,kinetics,their,high,cost,limited,resources,impede,large,scale,application,Therefore,developing,more,active,low,becomes,important,yet,challenging
AB值:
0.76174
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