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Electronic Structure Tuning in Cu–Co Dual Single Atom Catalysts for Enhanced COOH* Spillover and Electrocalytic CO<sub>2</sub> Reduction Activity

Yang Yang, Wenjun Zhang, Guangchen Wu, Qiang Huang, Jinghong Wen, Dingsheng Wang, Mingyang Liu

2025Angewandte Chemie International Edition65 citationsDOI

Abstract

Abstract The development of efficient electrocatalysts for CO 2 reduction to CO is challenging due to competing hydrogen evolution and intermediate over‐stabilization. In this study, a Cu–Co dual single‐atom catalyst (CuCo‐DSAC) anchored on carbon black was synthesized via scalable pyrolysis. The catalyst achieves 98.5% CO Faradaic efficiency at 500 mA cm −2 , maintaining &gt; 95% selectivity across a 400 mV window with &lt; 6% decay over 48 h, which is superior to the corresponding single‐atom control samples. In situ spectroscopy and DFT calculations reveal a synergistic mechanism: Co sites activate CO 2 and stabilize *COOH intermediates, while adjacent Cu sites facilitate CO desorption by lowering the energy barrier through charge redistribution. This dynamic buffer system mitigates active‐site blocking and suppresses HER by weakening H adsorption. The electronic interplay between Cu and Co optimizes intermediate energetics, enabling industrial‐level performance. This work demonstrates the potential of tailored dual‐site architectures for complex electrocatalytic processes, offering a promising approach to overcoming traditional limitations.

Topics & Concepts

CatalysisFaraday efficiencyChemistryReversible hydrogen electrodeDesorptionX-ray photoelectron spectroscopyHydrogen spilloverMaterials scienceAdsorptionChemical engineeringPhysical chemistryElectrodeAnodeElectrochemistryEngineeringBiochemistryReference electrodeCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionCatalytic Processes in Materials Science
Electronic Structure Tuning in Cu–Co Dual Single Atom Catalysts for Enhanced COOH* Spillover and Electrocalytic CO<sub>2</sub> Reduction Activity | Litcius