Electrocatalytic Pathways to the Formation of C-N Bonds

Dimitra Anastasiadou; Marta Costa Figueiredo

doi:10.1021/acscatal.3c04912

Electrocatalytic Pathways to the Formation of C-N Bonds

Dimitra Anastasiadou, Marta Costa Figueiredo (Corresponding author)

Research output: Contribution to journal › Review article › peer-review

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Abstract

The electrochemical synthesis of organonitrogen compounds characterized by the presence of C-N bonds has emerged in the past few years as an appealing alternative for the industrial-scale production of these compounds. Given their high industrial and societal importance, finding sustainable production methods is crucial. However, their production depends on the Haber Bosch process, which has a substantial environmental impact. In response to these challenges and recognizing the scientific challenge of making C-N bonds on an electrochemical interface, there is a notable surge in interest from the scientific community. This review summarizes some of the latest contributions to electrochemical C-N bond formation (urea, amides, and amines) concerning catalyst development and reaction mechanism elucidation.

Original language	English
Pages (from-to)	5088-5097
Number of pages	10
Journal	ACS Catalysis
Volume	14
Issue number	7
Early online date	20 Mar 2024
DOIs	https://doi.org/10.1021/acscatal.3c04912
Publication status	Published - 5 Apr 2024

Keywords

carbon dioxide electroreduction
C−N coupling
electrocatalysis
electrosynthesis
nitrogen chemistry
organonitrogen compounds

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abstract = "The electrochemical synthesis of organonitrogen compounds characterized by the presence of C-N bonds has emerged in the past few years as an appealing alternative for the industrial-scale production of these compounds. Given their high industrial and societal importance, finding sustainable production methods is crucial. However, their production depends on the Haber Bosch process, which has a substantial environmental impact. In response to these challenges and recognizing the scientific challenge of making C-N bonds on an electrochemical interface, there is a notable surge in interest from the scientific community. This review summarizes some of the latest contributions to electrochemical C-N bond formation (urea, amides, and amines) concerning catalyst development and reaction mechanism elucidation.",

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N2 - The electrochemical synthesis of organonitrogen compounds characterized by the presence of C-N bonds has emerged in the past few years as an appealing alternative for the industrial-scale production of these compounds. Given their high industrial and societal importance, finding sustainable production methods is crucial. However, their production depends on the Haber Bosch process, which has a substantial environmental impact. In response to these challenges and recognizing the scientific challenge of making C-N bonds on an electrochemical interface, there is a notable surge in interest from the scientific community. This review summarizes some of the latest contributions to electrochemical C-N bond formation (urea, amides, and amines) concerning catalyst development and reaction mechanism elucidation.

AB - The electrochemical synthesis of organonitrogen compounds characterized by the presence of C-N bonds has emerged in the past few years as an appealing alternative for the industrial-scale production of these compounds. Given their high industrial and societal importance, finding sustainable production methods is crucial. However, their production depends on the Haber Bosch process, which has a substantial environmental impact. In response to these challenges and recognizing the scientific challenge of making C-N bonds on an electrochemical interface, there is a notable surge in interest from the scientific community. This review summarizes some of the latest contributions to electrochemical C-N bond formation (urea, amides, and amines) concerning catalyst development and reaction mechanism elucidation.

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KW - C−N coupling

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KW - electrosynthesis

KW - nitrogen chemistry

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Electrocatalytic Pathways to the Formation of C-N Bonds

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