Ionic Liquids Modulating Local Microenvironment of Ni–Fe Binary Single Atom Catalyst for Efficient Electrochemical CO2 Reduction

Author:

Sun Jiale1,Liu Zhen1,Zhou Haihui1ORCID,Cao Mengxue1,Cai Weiming1,Xu Chenxi1,Xu Junwei1,Huang Zhongyuan12ORCID

Affiliation:

1. College of Chemistry and Chemical Engineering Hunan University Changsha 410082 China

2. Greater Bay Area Institute for Innovation Hunan University Guangzhou 510000 P. R. China

Abstract

AbstractThe Ni and Fe dual‐atom catalysts still undergo strikingly attenuation under high current density and high overpotential. To ameliorate the issue, the ionic liquids with different cations or anions are used in this work to regulate the micro‐surface of nitrogen‐doped carbon supported Ni and Fe dual‐atom sites catalyst (NiFe‐N‐C) by an impregnation method. The experimental data reveals the dual function of ionic liquids, which enhances CO2 adsorption ability and modulates electronic structure, facilitating CO2 anion radical (CO2¯) stabilization and decreasing onset potential. The theoretical calculation results prove that the attachment of ionic liquids modulates electronic structure, reduces energy barrier of CO2¯ formation, and enhances overall ECR performance. Based on these merits, BMImPF6 modified NiFe‐N‐C (NiFe‐N‐C/BMImPF6) achieves the high CO faradaic efficiency of 91.9% with a CO partial current density of −120 mA cm−2 at −1.0 V. When the NiFe‐N‐C/BMImPF6 is assembled as cathode of Zn‐CO2 battery, it delivers the highest power density of 2.61 mW cm−2 at 2.57 mA cm−2 and superior cycling stability. This work will afford a direction to modify the microenvironment of other dual‐atom catalysts for high‐performance CO2 electroreduction.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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