阐明电催化中电解质效应的操作方法

IF 7.9 2区化学 Q1 CHEMISTRY, PHYSICAL

Current Opinion in Electrochemistry Pub Date : 2025-04-17 DOI:10.1016/j.coelec.2025.101700

Kees E. Kolmeijer, Rik V. Mom

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引用次数: 0

摘要

电解液pH、离子组成和溶剂是电催化系统重要的设计参数，直接影响系统的催化活性、选择性和稳定性。然而，电解质组成与电催化性能之间的关系是复杂的，目前很难预测。为了阐明电催化中控制电解质效应的基本原理，能够解析电极-电解质界面活性位点结构的operando技术起着至关重要的作用。在这里，我们回顾了这些operando技术的当前能力，并分析了如何使用它们来找到电解质工程的游戏规则。

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Operando methods for the elucidation of electrolyte effects in electrocatalysis

The electrolyte pH, ion composition, and solvent are important design parameters in electrocatalytic systems, which directly impact the system’s catalytic activity, selectivity and stability. However, the relationship between the electrolyte composition and electrocatalytic performance is complex, and at present difficult to predict. To elucidate the underlying principles that govern electrolyte effects in electrocatalysis, operando techniques capable of resolving the active site structures at the electrode–electrolyte interface play a crucial role. Here, we review the current capabilities of these operando techniques and analyze how they can be used to find the rules of the game for electrolyte engineering.

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来源期刊

Current Opinion in Electrochemistry Chemistry-Analytical Chemistry

CiteScore

14.00

自引率

5.90%

发文量

272

审稿时长

73 days

期刊介绍： The development of the Current Opinion journals stemmed from the acknowledgment of the growing challenge for specialists to stay abreast of the expanding volume of information within their field. In Current Opinion in Electrochemistry, they help the reader by providing in a systematic manner: 1.The views of experts on current advances in electrochemistry in a clear and readable form. 2.Evaluations of the most interesting papers, annotated by experts, from the great wealth of original publications. In the realm of electrochemistry, the subject is divided into 12 themed sections, with each section undergoing an annual review cycle: • Bioelectrochemistry • Electrocatalysis • Electrochemical Materials and Engineering • Energy Storage: Batteries and Supercapacitors • Energy Transformation • Environmental Electrochemistry • Fundamental & Theoretical Electrochemistry • Innovative Methods in Electrochemistry • Organic & Molecular Electrochemistry • Physical & Nano-Electrochemistry • Sensors & Bio-sensors •