Pd‐Doped In2O3 for CO2 Electroreduction to Ethanol through CO Binding Regulation-Reference-Cited by-同舟云学术

Pd‐Doped In₂O₃ for CO₂ Electroreduction to Ethanol through CO Binding Regulation

Published:2024-02-22 Issue:10 Volume:16 Page:
ISSN:1867-3880
Container-title:ChemCatChem
language:en
Short-container-title:ChemCatChem

Author:

Liu Zhihui¹,Liu Hai¹²,Li Minglu¹,Meng Yichen¹,Wang Xiao³,Yan Tianxiang¹,Fan Qun¹,Lou Shi Nee¹,Cui Wenquan³,Zhang Sheng¹^ORCID

Affiliation:

1. Key Laboratory for Green Chemical Technology of Ministry of Education Collaborative Innovation Centre of Chemical Science and Engineering School of Chemical Engineering and Technology Tianjin University Tianjin 300072 China

2. School of Chemistry and Chemical Engineering Yancheng Institute of Technology Yancheng 224051 China

3. Hebei Key Laboratory for Environment Photocatalytic and Electrocatalytic Materials College of Chemical Engineering North China University of Science and Technology Tangshan 063210 China

Abstract

AbstractRenewable energy driven electrochemical carbon dioxide reduction (CO2RR) to alcohols provides an effective pathway for achieving carbon neutrality and sustainable development. However, it is challenging to convert CO2 into ethanol due to the sluggish C−C coupling and complex 12 electron/proton transferred process, which has been achieved mainly on Cu catalysts but with poor selectivity. Herein, In2O3 catalysts were doped with small amount of Pd and exhibited high activity for CO2RR to ethanol with a high Faradaic efficiency (50.7 %) at low overpotential. The introduction of Pd promotes the transformation of reaction products from formic acid to ethanol by modulating the binding strength of *CO intermediates. The in‐situ ATR‐SEIRAS and DFT calculations proved that the formation of Pd−O−In could modulate the binding strength of *CO and enhanced its coverage, thus facilitating C−C coupling step towards ethanol. This study may provide a new strategy to the generation of high value‐added products from CO2 over Non‐Cu‐based catalysts.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Publisher

Wiley

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