合理设计
焦点
催化作用
纳米技术
可再生能源
析氧
计算机科学
转化式学习
生化工程
反应堆设计
电化学
材料科学
设计要素和原则
工艺工程
高效能源利用
储能
钥匙(锁)
作者
Xingen Lin,Wenjia Qu,Zihan Wang,Jianuo Liu,Cheng Qian,Lin Tian,Lingxiao Wang,Yu Zhang,Huang Zhou,Yafei Zhao,Yuen Wu
摘要
Proton exchange membrane water electrolyzers (PEMWEs) are positioned as a transformative technology for renewable energy conversion and storage systems. The acidic oxygen evolution reaction (AOER), serving as the pivotal half-reaction governing overall efficiency, operational stability and system cost in water electrolysis, has become a focal point of contemporary electrochemical research. In this Review, we comprehensively summarize the recent advancements in both noble metal-based (Ir and Ru) and non-noble-metal-based (Mn and Co) heterogeneous electrocatalysts (HEs) for the AOER. The analysis commences with fundamental AOER mechanisms and the key factors that influence them, elucidating critical structure-activity relationships essential for rational catalyst engineering. Subsequently, we systematically evaluate state-of-the-art design strategies and corresponding breakthroughs in catalyst development, followed by a forward-looking perspective on the emergence and application of AI for science in the AOER. This review provides valuable guidance for the design of next-generation HEs for the AOER, ultimately aiming to bridge the gap between laboratory-scale achievements and industrial implementation of PEMWE technologies.
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