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Molecular Modification of Single Cobalt Sites Boosts the Catalytic Activity of CO<sub>2</sub> Electroreduction into CO

Yongzhi Zhong, Xiangdong Kong, Zhigang Geng, Jie Zeng, Xuan Luo, Lin Zhang

2020ChemPhysChem17 citationsDOI

Abstract

Abstract Electroreduction of CO 2 into carbonaceous fuels or industrial chemicals using renewable energy sources is an ideal way to promote global carbon recycling. Thus, it is of great importance to develop highly selective, efficient, and stable catalysts. Herein, we prepared cobalt single atoms (Co SAs) coordinated with phthalocyanine (Co SAs‐Pc). The anchoring of phthalocyanine with Co sites enabled electron transfer from Co sites to CO 2 effectively via the π‐conjugated system, resulting in high catalytic performance of CO 2 electroreduction into CO. During the process of CO 2 electroreduction, the Faradaic efficiency (FE) of Co SAs‐Pc for CO was as high as 94.8 %. Meanwhile, the partial current density of Co SAs‐Pc for CO was −11.3 mA cm −2 at −0.8 V versus the reversible hydrogen electrode ( vs RHE), 18.83 and 2.86 times greater than those of Co SAs (−0.60 mA cm −2 ) and commercial Co phthalocyanine (−3.95 mA cm −2 ), respectively. In an H‐cell system operating at −0.8 V vs RHE over 10 h, the current density and FE for CO of Co SAs‐Pc dropped by 3.2 % and 2.5 %. A mechanistic study revealed that the promoted catalytic performance of Co SAs‐Pc could be attributed to the accelerated reaction kinetics and facilitated CO 2 activation.

Topics & Concepts

CatalysisCobaltPhthalocyanineChemistryFaraday efficiencyElectrocatalystReversible hydrogen electrodeElectrodeInorganic chemistryElectrochemistryPhysical chemistryWorking electrodeOrganic chemistryCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsCarbon dioxide utilization in catalysis
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