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CO Intermediate‐Assisted Dynamic Cu Sintering During Electrocatalytic CO<sub>2</sub> Reduction on Cu−N−C Catalysts

Yanyang Qin, Wenshan Zhao, Chenfeng Xia, Li‐Juan Yu, Fei Song, Jianrui Zhang, Tiantian Wu, Rui Cao, Shujiang Ding, Bao Yu Xia, Yaqiong Su

2024Angewandte Chemie International Edition61 citationsDOIOpen Access PDF

Abstract

Abstract The electrochemical CO 2 reduction reaction (eCO 2 RR) to multicarbon products has been widely recognized for Cu‐based catalysts. However, the structural changes in Cu‐based catalysts during the eCO 2 RR pose challenges to achieving an in‐depth understanding of the structure–activity relationship, thereby limiting catalyst development. Herein, we employ constant‐potential density functional theory calculations to investigate the sintering process of Cu single atoms of Cu−N−C single‐atom catalysts into clusters under eCO 2 RR conditions. Systematic constant‐potential ab initio molecular dynamics simulations revealed that the leaching of Cu−(CO) x moieties and subsequent agglomeration into clusters can be facilitated by synergistic adsorption of H and eCO 2 RR intermediates (e.g., CO). Increasing the Cu 2+ concentration or the applied potential can efficiently suppress Cu sintering. Both microkinetic simulations and experimental results further confirm that sintered Cu clusters play a crucial role in generating C 2 products. These findings provide significant insights into the dynamic evolution of Cu‐based catalysts and the origin of their activity toward C 2 products during the eCO 2 RR.

Topics & Concepts

CatalysisSinteringElectrochemistryDensity functional theoryLeaching (pedology)AdsorptionMolecular dynamicsEconomies of agglomerationChemistryRedoxMaterials scienceInorganic chemistryChemical engineeringPhysical chemistryComputational chemistryMetallurgyElectrodeOrganic chemistrySoil waterSoil scienceEnvironmental scienceEngineeringCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsAdvanced Thermoelectric Materials and Devices