In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells

Solid oxide electrolysis cells provide a practical solution for the direct conversion of CO(2) to other chemicals (i.e. CO), however, an in-depth mechanistic understanding of the dynamic reconstruction of active sites for perovskite cathodes during CO(2) electrolysis remains a great challenge. Herei...

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Autores principales: Shen, Yuxiang, Liu, Tianfu, Li, Rongtan, Lv, Houfu, Ta, Na, Zhang, Xiaomin, Song, Yuefeng, Liu, Qingxue, Feng, Weicheng, Wang, Guoxiong, Bao, Xinhe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
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RESEARCH ARTICLE
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10411681/
https://www.ncbi.nlm.nih.gov/pubmed/37565207
http://dx.doi.org/10.1093/nsr/nwad078
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author Shen, Yuxiang
Liu, Tianfu
Li, Rongtan
Lv, Houfu
Ta, Na
Zhang, Xiaomin
Song, Yuefeng
Liu, Qingxue
Feng, Weicheng
Wang, Guoxiong
Bao, Xinhe
author_facet Shen, Yuxiang
Liu, Tianfu
Li, Rongtan
Lv, Houfu
Ta, Na
Zhang, Xiaomin
Song, Yuefeng
Liu, Qingxue
Feng, Weicheng
Wang, Guoxiong
Bao, Xinhe
author_sort Shen, Yuxiang
collection PubMed
description Solid oxide electrolysis cells provide a practical solution for the direct conversion of CO(2) to other chemicals (i.e. CO), however, an in-depth mechanistic understanding of the dynamic reconstruction of active sites for perovskite cathodes during CO(2) electrolysis remains a great challenge. Herein, we identify that iridium-doped Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) (SFIrM) perovskite displays a dynamic electrochemical reconstruction feature during CO(2) electrolysis with abundant exsolution of highly dispersed IrFe alloy nanoparticles on the SFIrM surface. The in situ reconstructed IrFe@SFIrM interfaces deliver a current density of 1.46 A cm(−2) while maintaining over 99% CO Faradaic efficiency, representing a 25.8% improvement compared with the Sr(2)Fe(1.5)Mo(0.5)O(6-δ) counterpart. In situ electrochemical spectroscopy measurements and density functional theory calculations suggest that the improved CO(2) electrolysis activity originates from the facilitated formation of carbonate intermediates at the IrFe@SFIrM interfaces. Our work may open the possibility of using an in situ electrochemical poling method for CO(2) electrolysis in practice.
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spelling pubmed-104116812023-08-10 In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells Shen, Yuxiang Liu, Tianfu Li, Rongtan Lv, Houfu Ta, Na Zhang, Xiaomin Song, Yuefeng Liu, Qingxue Feng, Weicheng Wang, Guoxiong Bao, Xinhe Natl Sci Rev RESEARCH ARTICLE Solid oxide electrolysis cells provide a practical solution for the direct conversion of CO(2) to other chemicals (i.e. CO), however, an in-depth mechanistic understanding of the dynamic reconstruction of active sites for perovskite cathodes during CO(2) electrolysis remains a great challenge. Herein, we identify that iridium-doped Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) (SFIrM) perovskite displays a dynamic electrochemical reconstruction feature during CO(2) electrolysis with abundant exsolution of highly dispersed IrFe alloy nanoparticles on the SFIrM surface. The in situ reconstructed IrFe@SFIrM interfaces deliver a current density of 1.46 A cm(−2) while maintaining over 99% CO Faradaic efficiency, representing a 25.8% improvement compared with the Sr(2)Fe(1.5)Mo(0.5)O(6-δ) counterpart. In situ electrochemical spectroscopy measurements and density functional theory calculations suggest that the improved CO(2) electrolysis activity originates from the facilitated formation of carbonate intermediates at the IrFe@SFIrM interfaces. Our work may open the possibility of using an in situ electrochemical poling method for CO(2) electrolysis in practice. Oxford University Press 2023-03-20 /pmc/articles/PMC10411681/ /pubmed/37565207 http://dx.doi.org/10.1093/nsr/nwad078 Text en © The Author(s) 2023. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle RESEARCH ARTICLE
Shen, Yuxiang
Liu, Tianfu
Li, Rongtan
Lv, Houfu
Ta, Na
Zhang, Xiaomin
Song, Yuefeng
Liu, Qingxue
Feng, Weicheng
Wang, Guoxiong
Bao, Xinhe
In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title_full In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title_fullStr In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title_full_unstemmed In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title_short In situ electrochemical reconstruction of Sr(2)Fe(1.45)Ir(0.05)Mo(0.5)O(6-δ) perovskite cathode for CO(2) electrolysis in solid oxide electrolysis cells
title_sort in situ electrochemical reconstruction of sr(2)fe(1.45)ir(0.05)mo(0.5)o(6-δ) perovskite cathode for co(2) electrolysis in solid oxide electrolysis cells
topic RESEARCH ARTICLE
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10411681/
https://www.ncbi.nlm.nih.gov/pubmed/37565207
http://dx.doi.org/10.1093/nsr/nwad078
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