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Balancing Intermediates Formation on Atomically Pd‐Bridged Cu/Cu <sub>2</sub> O Interfaces for Kinetics‐Matching Electrocatalytic C─N Coupling Reaction

Yan WangInstitute of Energy Hefei Comprehensive National Science Center (Anhui Energy Laboratory) Hefei University of Technology Hefei 230009 ChinaShuai XiaSchool of Materials Science and Engineering Hefei University of Technology Hefei 230009 ChinaKui ChenSchool of Materials Science and Engineering Hefei University of Technology Hefei 230009 ChinaJianfang ZhangDepartment of Materials Science Engineering &amp; Center of Super‐Diamond and Advanced Films (COSDAF) City University of Hong Kong Kowloon Hong Kong 99907 ChinaCuiping YuKey Laboratory of Advanced Functional Materials and Devices of Anhui Province Hefei University of Technology Hefei 230009 ChinaJingjie WuDepartment of Chemical and Environmental Engineering University of Cincinnati Cincinnati OH 45221 USAPeng WangAnhui Provincial Key Laboratory of Molecular Enzymology and Mechanism of Major Diseases College of Life Sciences Anhui Normal University Wuhu 241000 ChinaWenjun ZhangDepartment of Materials Science Engineering &amp; Center of Super‐Diamond and Advanced Films (COSDAF) City University of Hong Kong Kowloon Hong Kong 99907 ChinaYucheng WuChina International S&amp;T Cooperation Base for Advanced Energy and Environmental Materials &amp; Anhui Provincial International S&amp;T Cooperation Base for Advanced Energy Materials &amp; Key Laboratory of Advanced Functional Materials and Devices of Anhui Province Hefei University of Technology Hefei 230009 China
2025en
ABI

Аннотация

Abstract The electrochemical C─N coupling of CO 2 and nitrogenous species provides a promising approach for synthesizing valuable chemicals such as urea, amides, and other C─N compounds. However, the unbalanced formation of C‐ and N‐intermediates results in slow C─N coupling kinetics. Herein, we report an atomically Pd‐bridged Cu/Cu 2 O (Pd 1 –Cu/Cu 2 O) catalyst, synthesized through the in situ electrochemical reconstruction of Pd 1 –Cu 2 Te nanosheets. This catalyst features Pd–Cu dual sites that significantly enhance C─N coupling both thermodynamically and kinetically. The reconstructed Pd 1 –Cu/Cu 2 O achieves a urea yield rate of 31.8 mmol h −1 g cat. −1 and a Faradaic efficiency (FE) of 42.2%, along with excellent stability over 100 h. In situ spectroscopic examinations and theoretical calculations disclose that the Pd–Cu dual sites on Pd 1 –Cu/Cu 2 O modulate the reduction kinetics of CO 2 and NO 3 − , balance the formation of crucial *CO and *NH 2 intermediates, and lower the energy barrier for C─N coupling, thereby facilitating urea synthesis. Furthermore, the Pd 1 –Cu/Cu 2 O enables the unprecedented C─N coupling of aniline with CO, resulting in a remarkable acetanilide yield rate of 1021.2 mmol h −1 g cat. −1 with an FE of 23.7%. This heteroatom bridging strategy offers a new pathway for designing efficient electrocatalyst for the synthesis of C─N coupled compounds.

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