酸性析氧反应电催化剂的设计策略

IF 22.2 Q1 CHEMISTRY, MULTIDISCIPLINARY
Shubham Kaushik, Xin Xiao, Qiang Xu
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引用次数: 3

摘要

电化学水分解是一种很有前途的制氢和可持续能源转换技术,特别是在酸性介质中。然而,如何合成符合工业标准、具有高活性和长期稳定性的酸性析氧反应(OER)电催化剂仍然是一个挑战。目前,国内外对提高催化剂在酸性电解质中的电催化性能的策略和方法进行了较为系统的综述。在此,我们分析了目前报道的最先进的OER催化剂的电化学行为,并对制备高性能电催化剂的系统策略进行了全面的综述。首先,我们将介绍OER机制的一些基本原理,以便读者对该领域有更深入的了解。然后,我们总结和讨论了各种设计策略,包括电子状态调制,结构操纵等。最后,介绍了酸性OER电催化剂的挑战、机遇和未来展望。本文将为研究人员深入了解酸性介质中OER的机理以及合成高效、经济的OER电催化剂提供有益的指导资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Design strategies of electrocatalysts for acidic oxygen evolution reaction

Design strategies of electrocatalysts for acidic oxygen evolution reaction

Electrochemical water splitting, especially in acidic media, is a promising technology for hydrogen production and sustainable energy conversion. However, it remains a challenge to synthesize suitable acidic oxygen evolution reaction (OER) electrocatalysts that provide high activity and long-term stability according to the industrial standards. Up to date, quite few reviews provide a systematic summarization of the strategies and approaches to improve the electrocatalytic performances of the catalysts in acidic electrolytes. Herein, we analyze the electrochemical behavior of the reported state-of-the-art OER catalysts and provide a comprehensive review of the systematic strategies for preparing high-performance electrocatalysts. First, we introduce some fundamentals of OER mechanism to give readers a deeper understanding of this field. Then, we summarize and discuss various design strategies, including electronic state modulation, structural manipulation, etc. Finally, the challenges, opportunities, and future outlook regarding acidic OER electrocatalysts are delivered. This review will serve as a useful guiding resource for researchers seeking in-depth understanding of the OER mechanism in acidic media as well as learning approaches for synthesizing highly efficient and cost-effective OER electrocatalysts.

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来源期刊
EnergyChem
EnergyChem Multiple-
CiteScore
40.80
自引率
2.80%
发文量
23
审稿时长
40 days
期刊介绍: EnergyChem, a reputable journal, focuses on publishing high-quality research and review articles within the realm of chemistry, chemical engineering, and materials science with a specific emphasis on energy applications. The priority areas covered by the journal include:Solar energy,Energy harvesting devices,Fuel cells,Hydrogen energy,Bioenergy and biofuels,Batteries,Supercapacitors,Electrocatalysis and photocatalysis,Energy storage and energy conversion,Carbon capture and storage
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