双重掺杂:构建高效水电解金属催化剂的新兴战略

EcoEnergy Pub Date : 2024-03-07 DOI:10.1002/ece2.29
Zhijie Chen, Ning Han, Wei Wei, Dewei Chu, Bing-Jie Ni
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引用次数: 0

摘要

开发高效的水电解电催化剂对于可持续氢能源开发至关重要。为提高金属催化剂的催化性能,双重掺杂因其高效和易于实现而备受关注。双重掺杂可有效调整金属催化剂的电子特性、增强导电性、填充活性位点并提高其稳定性。本综述全面总结和讨论了阳离子-阳离子、阳离子-阴离子和阴离子-阴离子双掺杂催化剂在水分离方面的最新发展。重点阐述了双掺杂如何调节催化剂的内外特性并提高其催化性能。此外,还指出了指导未来高性能杂原子掺杂电催化剂工程研究的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Dual doping: An emerging strategy to construct efficient metal catalysts for water electrolysis

Developing efficient electrocatalysts for water electrolysis is critical for sustainable hydrogen energy development. For enhancing the catalytic performance of metal catalysts, dual doping has attracted enormous interest for its high effectiveness and facile realization. Dual doping is effective for tuning the electronic properties, enhancing the electrical conductivity, populating active sites, and improving the stability of metal catalysts. In this review, recent developments in cation–cation, cation–anion, and anion–anion dual-doped catalysts for water splitting are comprehensively summarized and discussed. An emphasis is put on illustrating how dual doping regulates the external and internal properties and boosts the catalytic performance of catalysts. Additionally, perspectives are pointed out to guide future research on engineering high-performance heteroatom-doped electrocatalysts.

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