Electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species

Zheng Zhang; Danyang Li; Yunchuan Tu; Jiao Deng; Huiting Bi; Yongchao Yao; Yan Wang; Tingshuai Li; Yongsong Luo; Shengjun Sun; Dongdong Zheng; Sónia A. C. Carabineiro; Zhou Chen; Junjiang Zhu; Xuping Sun

doi:10.1002/sus2.193

Electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species

Zheng Zhang, Danyang Li, Yunchuan Tu, Jiao Deng, Huiting Bi, Yongchao Yao, Yan Wang, Tingshuai Li, Yongsong Luo, Shengjun Sun, Dongdong Zheng, Sónia A. C. Carabineiro, Zhou Chen, Junjiang Zhu, Xuping Sun

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Abstract

The electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species not only offers an effective avenue to achieve carbon neutrality and reduce environmental pollution, but also establishes a route to synthesize valuable chemicals, such as urea, amide, and amine. This innovative approach expands the application range and product categories beyond simple carbonaceous species in electrocatalytic CO2 reduction, which is becoming a rapidly advancing field. This review summarizes the research progress in electrocatalytic urea synthesis, using N2, NO2−, and NO3− as nitrogenous species, and explores emerging trends in the electrosynthesis of amide and amine from CO2 and nitrogen species. Additionally, the future opportunities in this field are highlighted, including electrosynthesis of amino acids and other compounds containing C–N bonds, anodic C–N coupling reactions beyond water oxidation, and the catalytic mechanism of corresponding reactions. This critical review also captures the insights aimed at accelerating the development of electrochemical C–N coupling reactions, confirming the superiority of this electrochemical method over the traditional techniques.

Original language	English
Article number	e193
Number of pages	24
Journal	Susmat
Volume	4
Issue number	2
Early online date	12 Mar 2024
DOIs	https://doi.org/10.1002/sus2.193
Publication status	Published - Apr 2024

Keywords

C-N coupling
CO2 reduction
Electrocatalysis
Nitrogenous species
Reaction mechanism

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title = "Electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species",

abstract = "The electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species not only offers an effective avenue to achieve carbon neutrality and reduce environmental pollution, but also establishes a route to synthesize valuable chemicals, such as urea, amide, and amine. This innovative approach expands the application range and product categories beyond simple carbonaceous species in electrocatalytic CO2 reduction, which is becoming a rapidly advancing field. This review summarizes the research progress in electrocatalytic urea synthesis, using N2, NO2−, and NO3− as nitrogenous species, and explores emerging trends in the electrosynthesis of amide and amine from CO2 and nitrogen species. Additionally, the future opportunities in this field are highlighted, including electrosynthesis of amino acids and other compounds containing C–N bonds, anodic C–N coupling reactions beyond water oxidation, and the catalytic mechanism of corresponding reactions. This critical review also captures the insights aimed at accelerating the development of electrochemical C–N coupling reactions, confirming the superiority of this electrochemical method over the traditional techniques.",

keywords = "C-N coupling, CO2 reduction, Electrocatalysis, Nitrogenous species, Reaction mechanism",

author = "Zheng Zhang and Danyang Li and Yunchuan Tu and Jiao Deng and Huiting Bi and Yongchao Yao and Yan Wang and Tingshuai Li and Yongsong Luo and Shengjun Sun and Dongdong Zheng and Carabineiro, {S{\'o}nia A. C.} and Zhou Chen and Junjiang Zhu and Xuping Sun",

note = "info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/LA%2FP%2F0008%2F2020/PT# info:eu-repo/grantAgreement/FCT/Concurso de avalia{\c c}{\~a}o no {\^a}mbito do Programa Plurianual de Financiamento de Unidades de I&D (2017%2F2018) - Financiamento Base/UIDB%2F50006%2F2020/PT# info:eu-repo/grantAgreement/FCT/Concurso de avalia{\c c}{\~a}o no {\^a}mbito do Programa Plurianual de Financiamento de Unidades de I&D (2017%2F2018) - Financiamento Program{\'a}tico/UIDP%2F50006%2F2020/PT# info:eu-repo/grantAgreement/FCT/CEEC INST 2018/CEECINST%2F00102%2F2018%2FCP1567%2FCT0026/PT# The authors gratefully acknowledge financial support from the National Natural Science Foundation of China (Nos. 42277485, 21976141, 22272197, 22102184, 22102136, andU22A20392), the Natural Science Foundation of Hubei Province (2022CFB1001 and 2021CFA034), the Department of Education of Hubei Province (Q20221701 and Q20221704), and the Joint Fund of Yulin University and Dalian National Laboratory for Clean Energy (YLU-DNL Fund 2022008). ",

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doi = "10.1002/sus2.193",

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AU - Zhang, Zheng

AU - Li, Danyang

AU - Tu, Yunchuan

AU - Deng, Jiao

AU - Bi, Huiting

AU - Yao, Yongchao

AU - Wang, Yan

AU - Li, Tingshuai

AU - Luo, Yongsong

AU - Sun, Shengjun

AU - Zheng, Dongdong

AU - Carabineiro, Sónia A. C.

AU - Chen, Zhou

AU - Zhu, Junjiang

AU - Sun, Xuping

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N2 - The electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species not only offers an effective avenue to achieve carbon neutrality and reduce environmental pollution, but also establishes a route to synthesize valuable chemicals, such as urea, amide, and amine. This innovative approach expands the application range and product categories beyond simple carbonaceous species in electrocatalytic CO2 reduction, which is becoming a rapidly advancing field. This review summarizes the research progress in electrocatalytic urea synthesis, using N2, NO2−, and NO3− as nitrogenous species, and explores emerging trends in the electrosynthesis of amide and amine from CO2 and nitrogen species. Additionally, the future opportunities in this field are highlighted, including electrosynthesis of amino acids and other compounds containing C–N bonds, anodic C–N coupling reactions beyond water oxidation, and the catalytic mechanism of corresponding reactions. This critical review also captures the insights aimed at accelerating the development of electrochemical C–N coupling reactions, confirming the superiority of this electrochemical method over the traditional techniques.

AB - The electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species not only offers an effective avenue to achieve carbon neutrality and reduce environmental pollution, but also establishes a route to synthesize valuable chemicals, such as urea, amide, and amine. This innovative approach expands the application range and product categories beyond simple carbonaceous species in electrocatalytic CO2 reduction, which is becoming a rapidly advancing field. This review summarizes the research progress in electrocatalytic urea synthesis, using N2, NO2−, and NO3− as nitrogenous species, and explores emerging trends in the electrosynthesis of amide and amine from CO2 and nitrogen species. Additionally, the future opportunities in this field are highlighted, including electrosynthesis of amino acids and other compounds containing C–N bonds, anodic C–N coupling reactions beyond water oxidation, and the catalytic mechanism of corresponding reactions. This critical review also captures the insights aimed at accelerating the development of electrochemical C–N coupling reactions, confirming the superiority of this electrochemical method over the traditional techniques.

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KW - CO2 reduction

KW - Electrocatalysis

KW - Nitrogenous species

KW - Reaction mechanism

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DO - 10.1002/sus2.193

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ER -

Electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous species

Abstract

Keywords

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