电解水
催化作用
经济短缺
电解
化石燃料
氢
环境污染
资源(消歧)
生化工程
分解水
制氢
环境科学
计算机科学
材料科学
化学
工艺工程
纳米技术
废物管理
政府(语言学)
环境保护
工程类
电极
物理化学
有机化学
哲学
电解质
计算机网络
语言学
生物化学
光催化
作者
Jingwen Lin,Yan Wang,Zhenyun Zhao,Dongliang Chen,Rumin Liu,Zhizhen Ye,Bin Lu,Yang Hou,Jianguo Lü
摘要
Abstract The path to searching for sustainable energy has never stopped since the depletion of fossil fuels can lead to serious environmental pollution and energy shortages. Using water electrolysis to produce hydrogen has been proven to be a prioritized approach for green resource production. It is highly crucial to explore inexpensive and high‐performance electrocatalysts for accelerating hydrogen evolution reaction (HER) and apply them to industrial cases on a large scale. Here, we summarize the different mechanisms of HER in different pH settings and review recent advances in non‐noble‐metal‐based electrocatalysts. Then, based on the previous efforts, we discuss several universal strategies for designing pH‐independent catalysts and show directions for the future design of pH‐universal catalysts.
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