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Modulating the Asymmetric Atomic Interface of Copper Single Atoms for Efficient CO<sub>2</sub> Electroreduction

Pengyu Song, Botao Hu, Di Zhao, Jiantao Fu, Xiaoran Su, Wuyi Feng, Ke Yu, Shoujie Liu, Jiatao Zhang, Chen Chen

2023ACS Nano103 citationsDOI

Abstract

Cu single-atom catalysts (Cu SACs) have been considered as promising catalysts for efficient electrocatalytic CO 2 reduction reactions (ECRRs). However, the reports on Cu SACs with an asymmetric atomic interface to obtain CO are few. Herein, we rationally designed two Cu SACs with different asymmetric atomic interfaces to explore their catalytic performance. The catalyst of CuN 3 O/C delivers high ECRR selectivity with an FE CO value of above 90% in a wide potential window from −0.5 to −0.9 V vs RHE (in particular, 96% at −0.8 V), while CuCO 3 /C delivers poor selectivity for CO production with a maximum FE CO value of only 20.0% at −0.5 V vs RHE. Besides, CuN 3 O/C exhibited a large turnover frequency (TOF) up to 2782.6 h –1 at −0.9 V vs RHE, which is much better than the maximum 4.8 h –1 of CuCO 3 /C. Density functional theory (DFT) results demonstrate that the CuN 3 O site needs a lower Gibbs free energy than CuCO 3 in the rate-determining step of CO desorption, leading to the outstanding performance of CuN 3 O/C on the process of ECRR-to-CO. This work provides an efficient strategy to improve the selectivity and activity of the ECRR via regulating asymmetric atomic interfaces of SACs by adjusting the coordination atoms.

Topics & Concepts

SelectivityCatalysisAtom (system on chip)CopperDensity functional theoryMaterials scienceDesorptionWork (physics)ChemistryPhysical chemistryComputational chemistryAdsorptionThermodynamicsPhysicsMetallurgyComputer scienceBiochemistryEmbedded systemCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionIonic liquids properties and applications
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