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Low‐Energy CO<sub>2</sub> Reduction on a Metal‐Free Carbon Material

Jiafang Xie, Muhammad Arsalan Ghausi, Jian Wang, Xueyuan Wang, Wei Wang, Rui Yang, Maoxiang Wu, Qiaobao Zhang, Yaobing Wang

2020ChemElectroChem17 citationsDOI

Abstract

Abstract Electrochemical CO 2 reduction to value‐added chemicals on carbon‐based catalysts is a potential approach for low‐cost value‐added CO 2 recycling. However, high overpotential and limited understanding of the mechanism remain challenging. Herein, a nitrogen and phosphorus co‐doped carbon (NPC) material, which is synthesized through a simple pyrolysis, promoted low‐energy electrochemical CO 2 reduction. The NPC electrocatalyst combines the advantages of active sites co‐optimized by N and P, faster electrokinetics with bicarbonate providing proton, and more accessible active sites exposed by soft‐template precursors. The NPC electrocatalyst exhibited more than ten‐ and fourfold enhancement of the partial current density of CO production compared to N‐doped and P‐doped carbon materials, respectively, with high selectivity (86 % faradaic efficiency) at only −0.45 V. Experimental data coupled with density function theory calculations revealed that N and P dopants cooperated to enhance CO 2 adsorption, first electron transfer to CO 2 and then *COOH intermediate stabilization, leading to active and selective CO 2 ‐to‐CO conversion. This work extends the design and understanding of metal‐free carbon‐based electrocatalysts for electrochemical CO 2 reduction.

Topics & Concepts

OverpotentialElectrocatalystFaraday efficiencyElectrochemistryCarbon fibersCatalysisInorganic chemistryDopantMaterials scienceChemistryElectrochemical reduction of carbon dioxideReversible hydrogen electrodeChemical engineeringDopingElectrodeWorking electrodePhysical chemistryOrganic chemistryCarbon monoxideComposite materialOptoelectronicsEngineeringComposite numberCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsCarbon dioxide utilization in catalysis
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