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Regulating the coordination metal center in immobilized molecular complexes as single-atomic electrocatalysts for highly active, selective and durable electrochemical CO2 reduction

JOURNAL OF POWER SOURCES [2022]
Zhiwei Chen, Jiangwei Zhang, Chao Zhang, Ruixue Cui, Meijie Tan, Song Guo, Hongjuan Wang, Jiqing Jiao, Tongbu Lu
ABSTRACT

For electrochemical carbon dioxide reduction (CO 2 RR), metal–N sites exhibit promising catalytic activity , yet the structure–activity relationship remains largely unclear. Here we synthesize well-defined homogeneous catalysts containing four coordinating pyridine N atoms, regulate the coordination metal centers in immobilized molecular complexes, and investigate their catalytic performances in CO 2 RR. The resulting Co(qpy)/CNTs composite exhibit the highest efficiency. Its Faradaic efficiency for CO reaches >98% over the broad range from −0.5 V to −0.9 V ( vs . RHE), with long-term stability over 100 h. Density functional theory calculations reveal that the larger electronic overlap between the catalytic site and intermediate can decrease the free energy change for *COOH formation. The calculation results are experimentally verified by changing the metal centers (Fe(qpy), Ni(qpy) and Cu(qpy)). This work unveils the relationship between metal–ligand coordination and CO 2 RR performance, and offers a strategy for the design and synthesis of high-performance catalysts for practical applications.

MATERIALS

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