A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects

A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects

Cu is the only electrocatalyst that converts CO2 into appreciable quantities of hydrocarbons. However, it usually suffers from poor catalytic stability. In this work we propose a strategy of introducing crystal defects to change the reaction pathway and avoid accumulation of carbon on the Cu electro...

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Main Authors: Kaisong Xiang, Fangfang Zhu, Yucheng Liu, Yifan Pan, Xiaoyang Wang, Xu Yan, Hui Liu
Format: Article
Language:English
Published: Elsevier 2019-05-01
Series:Electrochemistry Communications
Online Access:http://www.sciencedirect.com/science/article/pii/S1388248119300827
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spelling doaj-6e2ceb68571044d5a71595f2c175ff692020-11-24T23:54:41ZengElsevierElectrochemistry Communications1388-24812019-05-011027277A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defectsKaisong Xiang0Fangfang Zhu1Yucheng Liu2Yifan Pan3Xiaoyang Wang4Xu Yan5Hui Liu6School of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, China; Chinese National Engineering Research Center for Control & Treatment of Heavy Metal Pollution, 932 South Lushan Rd, Changsha, Hunan, 410083, ChinaSchool of Metallurgy and Environment, Central South University, 932 South Lushan Rd, Changsha, Hunan 410083, China; Chinese National Engineering Research Center for Control & Treatment of Heavy Metal Pollution, 932 South Lushan Rd, Changsha, Hunan, 410083, China; Corresponding author.Cu is the only electrocatalyst that converts CO2 into appreciable quantities of hydrocarbons. However, it usually suffers from poor catalytic stability. In this work we propose a strategy of introducing crystal defects to change the reaction pathway and avoid accumulation of carbon on the Cu electrode surface, thus preventing its deactivation. Our experimental results show that carbon accumulation vanished and catalytic stability improved after crystal defects had been introduced into nano Cu electrodes. The correlation between the two rules: (1) crystal defects facilitate C2H4 formation while suppress CH4 generation; (2) crystal defects improve catalytic stability, reveals that the C2H4 formation pathway bypasses the carbon deposition associated with CH4 formation and results in stable catalytic performance. In particular, the Cu catalyst prepared according to this principle performed with good stability for 6 h almost without any change in Faradaic efficiency. This work may provide a new approach to stable CO2RR catalysis by managing the reaction pathway. Keywords: CO2 electroreduction, Cu electrode, Catalytic stability, Carbon accumulation, Crystal defectshttp://www.sciencedirect.com/science/article/pii/S1388248119300827
collection DOAJ
language English
format Article
sources DOAJ
author Kaisong Xiang
Fangfang Zhu
Yucheng Liu
Yifan Pan
Xiaoyang Wang
Xu Yan
Hui Liu
spellingShingle Kaisong Xiang
Fangfang Zhu
Yucheng Liu
Yifan Pan
Xiaoyang Wang
Xu Yan
Hui Liu
A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
Electrochemistry Communications
author_facet Kaisong Xiang
Fangfang Zhu
Yucheng Liu
Yifan Pan
Xiaoyang Wang
Xu Yan
Hui Liu
author_sort Kaisong Xiang
title A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
title_short A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
title_full A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
title_fullStr A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
title_full_unstemmed A strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in CO2RR catalysis by introducing crystal defects
title_sort strategy to eliminate carbon deposition on a copper electrode in order to enhance its stability in co2rr catalysis by introducing crystal defects
publisher Elsevier
series Electrochemistry Communications
issn 1388-2481
publishDate 2019-05-01
description Cu is the only electrocatalyst that converts CO2 into appreciable quantities of hydrocarbons. However, it usually suffers from poor catalytic stability. In this work we propose a strategy of introducing crystal defects to change the reaction pathway and avoid accumulation of carbon on the Cu electrode surface, thus preventing its deactivation. Our experimental results show that carbon accumulation vanished and catalytic stability improved after crystal defects had been introduced into nano Cu electrodes. The correlation between the two rules: (1) crystal defects facilitate C2H4 formation while suppress CH4 generation; (2) crystal defects improve catalytic stability, reveals that the C2H4 formation pathway bypasses the carbon deposition associated with CH4 formation and results in stable catalytic performance. In particular, the Cu catalyst prepared according to this principle performed with good stability for 6 h almost without any change in Faradaic efficiency. This work may provide a new approach to stable CO2RR catalysis by managing the reaction pathway. Keywords: CO2 electroreduction, Cu electrode, Catalytic stability, Carbon accumulation, Crystal defects
url http://www.sciencedirect.com/science/article/pii/S1388248119300827
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