Structure–property correlations for analysis of heterogeneous electrocatalysts

IF 6.1 Q2 CHEMISTRY, PHYSICAL
E. Alsaç, Nataraju Bodappa, Alexander W. H. Whittingham, Yutong Liu, Adriana C. de Lazzari, Rodney D. L. Smith
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引用次数: 5

Abstract

Heterogeneous electrocatalytic reactions are believed to occur at a minority of coordination sites through a series of elementary reactions that are balanced by minor equilibria. These features mask changes in reaction sites, making it challenging to directly identify and analyze reaction sites or intermediates while studying reaction mechanisms. Systematic perturbations of a reaction system often yield systematic changes in material properties and behavior. Correlations between measurable changes in parameters describing the structure and behavior, therefore, serve as powerful tools for distinguishing active reaction sites. This review explores structure–property correlations that have advanced understanding of behavior and reaction mechanisms in heterogeneous electrocatalysis. It covers correlations that have advanced understanding of the contributions of the local reaction environment to reactivity, of structure and bonding within solid-state materials, of geometric or mechanical strain in bonding environments, and of the impact of structural defects. Such correlations can assist researchers in developing next generation catalysts by establishing catalyst design principles and gaining control over reaction mechanisms.
用于分析非均相电催化剂的结构-性能相关性
多相电催化反应被认为是通过一系列由小平衡平衡的基本反应发生在少数配位位点。这些特征掩盖了反应位点的变化,使得在研究反应机理时直接识别和分析反应位点或中间体具有挑战性。反应系统的系统扰动通常会导致材料性质和行为的系统变化。因此,描述结构和行为的参数的可测量变化之间的相关性是区分活性反应位点的有力工具。这篇综述探讨了结构-性质相关性,这些相关性对多相电催化的行为和反应机制有了深入的理解。它涵盖了对局部反应环境对反应性的贡献、固态材料内的结构和键合、键合环境中的几何或机械应变以及结构缺陷的影响有深入理解的相关性。这种相关性可以通过建立催化剂设计原则和控制反应机制来帮助研究人员开发下一代催化剂。
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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