期刊
APPLIED CATALYSIS B-ENVIRONMENT AND ENERGY
卷 343, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apcatb.2023.123551
关键词
Electrocatalytic CO reduction; Polymer Coating; Gas diffusion; Acetate
In this study, we presented a facile strategy for modulating the local concentration of CO using polymer coating, which led to selective, active, and stable production of acetate on a Cu model-catalyst. The fluorinated polymer coating enhanced CO diffusion and increased the hydrophobicity of the catalyst layer, resulting in significantly improved acetate selectivity and partial current density on the Cu-catalyst.
The productivity of multi-carbon products in electrocatalytic CO reduction is greatly influenced by the local concentration of CO. Herein, we present a facile strategy for modulating the local concentration of CO under atmospheric pressure via polymer coating, which enables selective, active and stable production of acetate on a Cu model-catalyst. Specifically, we coat the Cu-catalyst with a fluorinated polymer, forming an optimized gas involving reaction interface. This approach enhances the CO diffusion to catalyst surfaces and increases the hydrophobicity of the catalyst layer, resulting in enhanced acetate selectivity of over 50% with a high partial current density of-0.65 A cm-2 on Cu-catalyst. This represents an over 3 folders of enhancement compared to the pristine Cu-catalyst. Furthermore, this optimized reaction interface led to a stable COR electrolysis over a duration of 70 h. Our strategy offers valuable insights for designing efficient catalytic interface in various electrochemical reactions that involve gas diffusion.
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