Multicomponent catalyst design for CO2/N2/NOx electroreduction

Industrial Chemistry & Materials Pub Date : 2023-01-03 DOI:10.1039/D2IM00056C

Shunhan Jia, Limin Wu, Liang Xu, Xiaofu Sun and Buxing Han

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引用次数: 2

Abstract

Electroreduction of small molecules such as CO₂, N₂, and NO₃⁻ is one of the promising routes to produce sustainable chemicals and fuels and store renewable energy, which could contribute to our carbon neutrality goal. Emerging multicomponent electrocatalysts, integrating the advantages of individual components of catalysts, are of great importance to achieve efficient electroreduction of small molecules via activation of inert bonds and multistep transformation. In this review, some basic issues in the electroreduction of small molecules including CO₂, N₂, and NO₃⁻ are briefly introduced. We then discuss our fundamental understanding of the rule of interaction in multicomponent electrocatalysts, and summarize three models for multicomponent catalysts, including type I, “a non-catalytically active component can activate or protect another catalytic component”; type II, “all catalytic components provide active intermediates for electrochemical conversion”; and type III, “one component provides the substrate for the other through conversion or adsorption”. Additionally, an outlook was considered to highlight the future directions of multicomponent electrocatalysts toward industrial applications.

Keywords: Green chemistry; Green carbon science; Electrocatalysis; Synergetic effect.

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CO2/N2/NOx电还原多组分催化剂设计

电还原CO2、N2和NO3 -等小分子是生产可持续化学品和燃料以及储存可再生能源的有前途的途径之一，这可能有助于实现我们的碳中和目标。新兴的多组分电催化剂整合了催化剂各组分的优点，通过激活惰性键和多步转化实现小分子的高效电还原具有重要意义。本文简要介绍了CO2、N2和NO3−等小分子电还原中的一些基本问题。然后，我们讨论了我们对多组分电催化剂相互作用规则的基本理解，并总结了三种多组分催化剂模型，包括类型1，“非催化活性组分可以激活或保护另一种催化组分”;II型，“所有催化组分为电化学转化提供活性中间体”;第三种，“一种组分通过转化或吸附为另一种组分提供底物”。最后，对多组分电催化剂的工业应用前景进行了展望。关键词:绿色化学;绿色碳科学;电催化作用;协同作用的效果。

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