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A Perspective of Magnetoelectric Effect in Electrocatalysis
Small Science ( IF 11.1 ) Pub Date : 2023-08-13 , DOI: 10.1002/smsc.202300065 Dongsheng Shao 1, 2 , Tianze Wu 1 , Xiaoning Li 1 , Xiaoming Ren 2 , Zhichuan J. Xu 1, 3
Small Science ( IF 11.1 ) Pub Date : 2023-08-13 , DOI: 10.1002/smsc.202300065 Dongsheng Shao 1, 2 , Tianze Wu 1 , Xiaoning Li 1 , Xiaoming Ren 2 , Zhichuan J. Xu 1, 3
Affiliation
The integration of magnetic fields with magnetoelectric (ME) coupling materials has been recently reported for electrocatalysis applications. Highly efficient energy conversion and storage can be potentially provided by this emerging approach. The ME properties, that is, the coexistence of ferromagnetic (FM) and ferroelectric (FE) ordering in some multiferroic materials, can be manipulated by magnetic or electric fields. The ME coupling can result in unique spin-related physical properties in catalysts, further leading to interesting effects on electrocatalytic reactions. Herein, a discussion on the ME coupling multiferroic materials, as well as their potential opportunities and challenges as electrocatalysts in selected electrochemical reactions, is provided.
中文翻译:
电催化中磁电效应的视角
最近报道了磁场与磁电(ME)耦合材料的集成用于电催化应用。这种新兴方法可以提供高效的能量转换和存储。ME 特性,即某些多铁材料中铁磁 (FM) 和铁电 (FE) 有序的共存,可以通过磁场或电场来操纵。ME耦合可以在催化剂中产生独特的与自旋相关的物理性质,进一步对电催化反应产生有趣的影响。本文讨论了 ME 耦合多铁材料,以及它们作为选定电化学反应中的电催化剂的潜在机遇和挑战。
更新日期:2023-08-13
中文翻译:
电催化中磁电效应的视角
最近报道了磁场与磁电(ME)耦合材料的集成用于电催化应用。这种新兴方法可以提供高效的能量转换和存储。ME 特性,即某些多铁材料中铁磁 (FM) 和铁电 (FE) 有序的共存,可以通过磁场或电场来操纵。ME耦合可以在催化剂中产生独特的与自旋相关的物理性质,进一步对电催化反应产生有趣的影响。本文讨论了 ME 耦合多铁材料,以及它们作为选定电化学反应中的电催化剂的潜在机遇和挑战。