Recent progress in C–N coupling for electrochemical CO2 reduction with inorganic nitrogenous species in aqueous solution

材料导报:能源(英文) Pub Date : 2023-02-01 DOI:10.1016/j.matre.2023.100178

Shuxia Liu , Tanyuan Wang , Lior Elbaz , Qing Li

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引用次数: 2

Abstract

The electrocatalytic CO₂ reduction in aqueous solution mainly involves bond cleavage and formation between C, H and O, and it is highly desirable to expand the bond formation reaction of C with other atoms to obtain novel and valuable chemicals. The electrochemical synthesis of N-containing organic chemicals in electrocatalytic CO₂ reduction via introducing N sources is an effective strategy to expand the product scope, since chemicals containing C–N bonds (e.g. amides and amines) are important reactants/products for medicine, agriculture and industry. This article focuses on the research progress of C–N coupling from CO₂ and inorganic nitrogenous species in aqueous solution. Firstly, the reaction pathways related to the reaction intermediates for urea, formamide, acetamide, methylamine and ethylamine are highlighted. Then, the electrocatalytic performance of different catalysts for these several N-containing products are summarized and classified. Finally, the challenges and opportunities are analyzed, aiming to provide general insights into future research directions for electrocatalytic C–N coupling.

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水溶液中无机含氮物C-N耦合电化学还原CO2研究进展

水溶液中电催化CO2还原主要涉及到C、H和O之间的键裂解和成键，而扩大C与其他原子的成键反应是非常需要的，以获得新颖有价值的化学物质。由于含有C-N键的化学物质(如酰胺和胺)是医药、农业和工业的重要反应物/产物，因此通过引入N源在电催化CO2还原中电化学合成含N有机化学物质是扩大产品范围的有效策略。本文重点介绍了水溶液中CO2与无机氮素耦合C-N的研究进展。首先，重点介绍了尿素、甲酰胺、乙酰胺、甲胺和乙胺等中间体的反应途径。然后，对不同催化剂对这几种含氮产物的电催化性能进行了总结和分类。最后，分析了电催化C-N耦合的挑战和机遇，并对未来的研究方向提出了一般性的见解。

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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