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Tailoring Bond Microenvironments and Reaction Pathways of Single-Atom Catalysts for Efficient Water Electrolysis
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2022-07-25 , DOI: 10.1002/anie.202208667 Weiqiong Zheng 1 , Ran Zhu 1 , Huijuan Wu 1 , Tian Ma 1 , Hongju Zhou 1 , Mi Zhou 2 , Chao He 1 , Xikui Liu 1 , Shuang Li 1 , Chong Cheng 1, 3
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2022-07-25 , DOI: 10.1002/anie.202208667 Weiqiong Zheng 1 , Ran Zhu 1 , Huijuan Wu 1 , Tian Ma 1 , Hongju Zhou 1 , Mi Zhou 2 , Chao He 1 , Xikui Liu 1 , Shuang Li 1 , Chong Cheng 1, 3
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Disclosing the structure–reactivity relationships of single-atom sites (SASs) in water electrolysis is critical to guide the future design, performance optimization, and broad applications of single-atom catalysts. This Review summarizes the most recent progress in tailoring the bond microenvironment of single-atom catalysts on different supports and discusses the reaction pathways, mechanisms, and performance advantages of different SAS structures for water electrolysis.
中文翻译:
为高效水电解定制单原子催化剂的键微环境和反应途径
揭示水电解中单原子位点 (SAS) 的结构-反应性关系对于指导单原子催化剂的未来设计、性能优化和广泛应用至关重要。本综述总结了在不同载体上定制单原子催化剂的键微环境的最新进展,并讨论了不同 SAS 结构在水电解中的反应途径、机理和性能优势。
更新日期:2022-07-25
中文翻译:
为高效水电解定制单原子催化剂的键微环境和反应途径
揭示水电解中单原子位点 (SAS) 的结构-反应性关系对于指导单原子催化剂的未来设计、性能优化和广泛应用至关重要。本综述总结了在不同载体上定制单原子催化剂的键微环境的最新进展,并讨论了不同 SAS 结构在水电解中的反应途径、机理和性能优势。
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