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首页> 外文期刊>Advanced energy materials >Circumventing Challenges: Design of Anodic Electrocatalysts for Hybrid Water Electrolysis Systems
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Circumventing Challenges: Design of Anodic Electrocatalysts for Hybrid Water Electrolysis Systems

机译:Circumventing Challenges: Design of Anodic Electrocatalysts for Hybrid Water Electrolysis Systems

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摘要

Water electrolysis, driven by renewable energy resources, is a promisingenergy conversion technology that has gained intensive interest in recentyears. However, conventional water electrolysis faces a number of challenges,including large thermodynamic potential gaps, valueless anodic products,explosive hydrogen/oxygen mixtures, reactive oxygen species, and limitedpure water. Hybrid water electrolysis, appending different electrolytes inthe anode compartment to circumvent the above-mentioned challenges inconventional water electrolysis, is a particularly attractive alternative. In thisreview, for the first time, a holistic and subtle description of hybrid water electrolysisis provided, focusing on the design of high-activity/selectivity/stabilityanodic electrocatalysts for the electrochemical oxidation of various chemicals,such as alcohol, aldehyde, amine, urea and hydrazine, or the oxygenevolution reaction in seawater electrolytes. Comprehensive judging criteriafor anodic oxidation reactions, electrocatalysts, and reaction parameters inhybrid water electrolysis are discussed. Some technoeconomic assessments,feasibility analyses, mechanism explorations, and correlation comparisonsare involved. Finally, perspectives on and opportunities for future researchdirections in hybrid water electrolysis systems are outlined.

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