Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks

[Image: see text] Efficient electro-reduction of CO(2) over metal–organic framework (MOF) materials is hindered by the poor contact between thermally synthesized MOF particles and the electrode surface, which leads to low Faradaic efficiency for a given product and poor electrochemical stability of...

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Autores principales: Kang, Xinchen, Wang, Bin, Hu, Kui, Lyu, Kai, Han, Xue, Spencer, Ben F., Frogley, Mark D., Tuna, Floriana, McInnes, Eric J. L., Dryfe, Robert A. W., Han, Buxing, Yang, Sihai, Schröder, Martin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2020
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7586324/
https://www.ncbi.nlm.nih.gov/pubmed/32997941
http://dx.doi.org/10.1021/jacs.0c05913
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author Kang, Xinchen
Wang, Bin
Hu, Kui
Lyu, Kai
Han, Xue
Spencer, Ben F.
Frogley, Mark D.
Tuna, Floriana
McInnes, Eric J. L.
Dryfe, Robert A. W.
Han, Buxing
Yang, Sihai
Schröder, Martin
author_facet Kang, Xinchen
Wang, Bin
Hu, Kui
Lyu, Kai
Han, Xue
Spencer, Ben F.
Frogley, Mark D.
Tuna, Floriana
McInnes, Eric J. L.
Dryfe, Robert A. W.
Han, Buxing
Yang, Sihai
Schröder, Martin
author_sort Kang, Xinchen
collection PubMed
description [Image: see text] Efficient electro-reduction of CO(2) over metal–organic framework (MOF) materials is hindered by the poor contact between thermally synthesized MOF particles and the electrode surface, which leads to low Faradaic efficiency for a given product and poor electrochemical stability of the catalyst. We report a MOF-based electrode prepared via electro-synthesis of MFM-300(In) on an indium foil, and its activity for the electrochemical reduction of CO(2) is assessed. The resultant MFM-300(In)-e/In electrode shows a 1 order of magnitude improvement in conductivity compared with that for MFM-300(In)/carbon-paper electrodes. MFM-300(In)-e/In exhibits a current density of 46.1 mA cm(–2) at an applied potential of −2.15 V vs Ag/Ag(+) for the electro-reduction of CO(2) in organic electrolyte, achieving an exceptional Faradaic efficiency of 99.1% for the formation of formic acid. The facile preparation of the MFM-300(In)-e/In electrode, coupled with its excellent electrochemical stability, provides a new pathway to develop efficient electro-catalysts for CO(2) reduction.
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spelling pubmed-75863242020-10-27 Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks Kang, Xinchen Wang, Bin Hu, Kui Lyu, Kai Han, Xue Spencer, Ben F. Frogley, Mark D. Tuna, Floriana McInnes, Eric J. L. Dryfe, Robert A. W. Han, Buxing Yang, Sihai Schröder, Martin J Am Chem Soc [Image: see text] Efficient electro-reduction of CO(2) over metal–organic framework (MOF) materials is hindered by the poor contact between thermally synthesized MOF particles and the electrode surface, which leads to low Faradaic efficiency for a given product and poor electrochemical stability of the catalyst. We report a MOF-based electrode prepared via electro-synthesis of MFM-300(In) on an indium foil, and its activity for the electrochemical reduction of CO(2) is assessed. The resultant MFM-300(In)-e/In electrode shows a 1 order of magnitude improvement in conductivity compared with that for MFM-300(In)/carbon-paper electrodes. MFM-300(In)-e/In exhibits a current density of 46.1 mA cm(–2) at an applied potential of −2.15 V vs Ag/Ag(+) for the electro-reduction of CO(2) in organic electrolyte, achieving an exceptional Faradaic efficiency of 99.1% for the formation of formic acid. The facile preparation of the MFM-300(In)-e/In electrode, coupled with its excellent electrochemical stability, provides a new pathway to develop efficient electro-catalysts for CO(2) reduction. American Chemical Society 2020-09-30 2020-10-14 /pmc/articles/PMC7586324/ /pubmed/32997941 http://dx.doi.org/10.1021/jacs.0c05913 Text en This is an open access article published under a Creative Commons Attribution (CC-BY) License (http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html) , which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
spellingShingle Kang, Xinchen
Wang, Bin
Hu, Kui
Lyu, Kai
Han, Xue
Spencer, Ben F.
Frogley, Mark D.
Tuna, Floriana
McInnes, Eric J. L.
Dryfe, Robert A. W.
Han, Buxing
Yang, Sihai
Schröder, Martin
Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title_full Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title_fullStr Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title_full_unstemmed Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title_short Quantitative Electro-Reduction of CO(2) to Liquid Fuel over Electro-Synthesized Metal–Organic Frameworks
title_sort quantitative electro-reduction of co(2) to liquid fuel over electro-synthesized metal–organic frameworks
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7586324/
https://www.ncbi.nlm.nih.gov/pubmed/32997941
http://dx.doi.org/10.1021/jacs.0c05913
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