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Phosphorus Coordination in Second Shell of Single-Atom Cu Catalyst toward Acetate Production in CO Electroreduction.

Kanghua MiaoJingbo WenMi LuoDong XiangYawen JiangDelong DuanZheng JiangWenming SunBingbao MeiYujie XiongXiongwu Kang
Published in: Nano letters (2024)
It is challenging to achieve highly efficient CO-CO coupling toward C 2 products in electrochemical CO and CO 2 reductions on single-atom catalysts (SACs). Herein, we report a modulation strategy of phosphorus coordination in the second shell of Cu SACs with a Cu-N 4 structure (Cu-N 4 -P 4 /C 4 ) and demonstrate experimentally and theoretically the CO-CO coupling through an Eley-Rideal mechanism in electrochemical CO reduction (COR). Remarkably, the Cu SACs exhibit a selectivity of 63.9% toward acetate production in alkaline media on a gas diffusion electrode. Operando synchrotron-based X-ray absorption spectroscopy confirms the robust Cu-N 4 -P 4 /C 4 structure of the Cu SACs against the harsh electrochemical reduction conditions throughout the electrochemical COR, instead of forming Cu clusters for Cu-N 4 configuration, enabling an excellent COR performance toward acetate. This work not only unravels a new mechanism for CO-CO coupling toward C 2 products in COR but also offers a novel strategy for SAC regulation toward multicarbon production with high activity, selectivity, and durability.
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