Highly Ethylene-Selective Electrocatalytic CO2 Reduction Enabled by Isolated Cu−S Motifs in Metal–Organic Framework Based Precatalysts
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Zhou, M
Liu, PF
Liu, Y
Wu, X
Mao, F
Dai, S
Xu, B
Wang, XL
Jiang, Z
Hu, P
Yang, S
Wang, HF
Yang, HG
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Abstract
Copper-based materials are efficient electrocatalysts for the conversion of CO2 to C2+ products, and most these materials are reconstructed in situ to regenerate active species. It is a challenge to precisely design precatalysts to obtain active sites for the CO2 reduction reaction (CO2RR). Herein, we develop a strategy based on local sulfur doping of a Cu-based metal–organic framework precatalyst, in which the stable Cu−S motif is dispersed in the framework of HKUST-1 (S-HKUST-1). The precatalyst exhibits a high ethylene selectivity in an H-type cell with a maximum faradaic efficiency (FE) of 60.0 %, and delivers a current density of 400 mA cm−2 with an ethylene FE up to 57.2 % in a flow cell. Operando X-ray absorption results demonstrate that Cuδ+ species stabilized by the Cu−S motif exist in S-HKUST-1 during CO2RR. Density functional theory calculations indicate the partially oxidized Cuδ+ at the Cu/CuxSy interface is favorable for coupling of the *CO intermediate due to the modest distance between coupling sites and optimized adsorption energy.
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Angewandte Chemie: International Edition
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Chemical sciences
CO2 reduction reaction
Cu−S species
electrocatalysis
metal-organic frameworks
operando XAFS
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Wen, CF; Zhou, M; Liu, PF; Liu, Y; Wu, X; Mao, F; Dai, S; Xu, B; Wang, XL; Jiang, Z; Hu, P; Yang, S; Wang, HF; Yang, HG, Highly Ethylene-Selective Electrocatalytic CO2 Reduction Enabled by Isolated Cu−S Motifs in Metal–Organic Framework Based Precatalysts, Angewandte Chemie: International Edition, 2021