Advances in regulating the electron spin effect toward electrocatalysis applications

IF 36.6 Q1 ELECTROCHEMISTRY eScience Pub Date : 2025-01-01 Epub Date: 2024-03-22 DOI:10.1016/j.esci.2024.100264

Liu Lin , Peiyuan Su , Yiting Han , Yunming Xu , Qiao Ni , Xinyue Zhang , Peixun Xiong , Zemin Sun , Genban Sun , Xuebo Chen

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Abstract

Building highly reactive electrocatalysts is of great significance for addressing the energy crisis and developing green energy. Electrocatalytic reactions occur at the interface of catalysts, where the physicochemical properties of the catalyst surface play a dominant role. In particular, the electron spin behavior on the catalyst surface has a decisive impact on the catalytic reaction process. This review initially introduces the definition of electron spin and methods for spin manipulation. Furthermore, we summarize the advanced characterization methods of electron spin. Then, we review the latest research advancements on the spin effect in the oxygen reduction reaction, oxygen evolution reaction, carbon dioxide reduction reaction, and nitrogen reduction reaction. The catalytic mechanisms of spin manipulation in these four reactions are thoroughly discussed. Finally, we propose key directions for the future development of spin effects in the field of electrocatalysis. This review contributes to a deeper understanding of the micromechanisms in electrocatalytic reactions.

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调节电子自旋效应在电催化应用方面的进展

构建高活性电催化剂对于解决能源危机、发展绿色能源具有重要意义。电催化反应发生在催化剂的界面上，催化剂表面的物理化学性质起主导作用。特别是催化剂表面的电子自旋行为对催化反应过程有决定性的影响。本文首先介绍了电子自旋的定义和自旋操纵的方法。此外，我们还总结了电子自旋的先进表征方法。然后综述了自旋效应在氧还原反应、析氧反应、二氧化碳还原反应和氮还原反应中的最新研究进展。对这四种反应中自旋操纵的催化机理进行了深入的讨论。最后，提出了自旋效应在电催化领域未来发展的重点方向。本文综述有助于对电催化反应的微观机理有更深入的认识。

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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eScience

CiteScore

33.70

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0.00%

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