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Emerging nanostructured carbon-based non-precious metal electrocatalysts for selective electrochemical CO 2 reduction to CO

The electrochemical carbon dioxide (CO 2 ) reduction (ECR) represents one of the most promising technologies for CO 2 conversion into value-added feedstock from carbon monoxide (CO) to a variety of hydrocarbons. As the raw material for FischerTropsch synthesis, CO is one of the most desirable ECR...

Journal Title: Journal of Materials Chemistry A 2019, Vol.7(44), pp.25191-25202
Main Author: Wang, Xinyue
Other Authors: Zhao, Qidong , Yang, Bin , Li, Zhongjian , Bo, Zheng , Lam, Kwok Ho , Adli, Nadia Mohd , Lei, Lecheng , Wen, Zhenhai , Wu, Gang , Hou, Yang
Format: Electronic Article Electronic Article
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ID: DOI: 10.1039/c9ta09681g
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recordid: rscc9ta09681g
title: Emerging nanostructured carbon-based non-precious metal electrocatalysts for selective electrochemical CO 2 reduction to CO
format: Article
creator:
  • Wang, Xinyue
  • Zhao, Qidong
  • Yang, Bin
  • Li, Zhongjian
  • Bo, Zheng
  • Lam, Kwok Ho
  • Adli, Nadia Mohd
  • Lei, Lecheng
  • Wen, Zhenhai
  • Wu, Gang
  • Hou, Yang
subjects:
  • Surface Properties
  • Reduction
  • Electrocatalysts
  • Carbon Monoxide
  • Metals
  • Transition Metals
  • Carbon Dioxide
  • Carbon Dioxide
  • Selectivity
  • Carbon Monoxide
  • Gold
  • Conversion
  • Catalysis
  • Surface Properties
  • Industrial Applications
  • Nanostructure
  • Carbon Dioxide
  • Catalysis
  • Electronic Properties
  • Carbon Dioxide
ispartof: Journal of Materials Chemistry A, 2019, Vol.7(44), pp.25191-25202
description: The electrochemical carbon dioxide (CO 2 ) reduction (ECR) represents one of the most promising technologies for CO 2 conversion into value-added feedstock from carbon monoxide (CO) to a variety of hydrocarbons. As the raw material for FischerTropsch synthesis, CO is one of the most desirable ECR...
language:
source:
identifier: DOI: 10.1039/c9ta09681g
fulltext: fulltext
issn:
  • 2050-7488
  • 2050-7496
  • 20507496
  • 20507488
url: Link


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titleEmerging nanostructured carbon-based non-precious metal electrocatalysts for selective electrochemical CO 2 reduction to CO
creatorWang, Xinyue ; Zhao, Qidong ; Yang, Bin ; Li, Zhongjian ; Bo, Zheng ; Lam, Kwok Ho ; Adli, Nadia Mohd ; Lei, Lecheng ; Wen, Zhenhai ; Wu, Gang ; Hou, Yang
ispartofJournal of Materials Chemistry A, 2019, Vol.7(44), pp.25191-25202
identifierDOI: 10.1039/c9ta09681g
descriptionThe electrochemical carbon dioxide (CO 2 ) reduction (ECR) represents one of the most promising technologies for CO 2 conversion into value-added feedstock from carbon monoxide (CO) to a variety of hydrocarbons. As the raw material for FischerTropsch synthesis, CO is one of the most desirable ECR...
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subjectSurface Properties ; Reduction ; Electrocatalysts ; Carbon Monoxide ; Metals ; Transition Metals ; Carbon Dioxide ; Carbon Dioxide ; Selectivity ; Carbon Monoxide ; Gold ; Conversion ; Catalysis ; Surface Properties ; Industrial Applications ; Nanostructure ; Carbon Dioxide ; Catalysis ; Electronic Properties ; Carbon Dioxide;
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titleEmerging nanostructured carbon-based non-precious metal electrocatalysts for selective electrochemical CO 2 reduction to CO
descriptionThe electrochemical carbon dioxide (CO 2 ) reduction (ECR) represents one of the most promising technologies for CO 2 conversion into value-added feedstock from carbon monoxide (CO) to a variety of hydrocarbons. As the raw material for FischerTropsch synthesis, CO is one of the most desirable ECR...
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titleEmerging nanostructured carbon-based non-precious metal electrocatalysts for selective electrochemical CO 2 reduction to CO
authorWang, Xinyue ; Zhao, Qidong ; Yang, Bin ; Li, Zhongjian ; Bo, Zheng ; Lam, Kwok Ho ; Adli, Nadia Mohd ; Lei, Lecheng ; Wen, Zhenhai ; Wu, Gang ; Hou, Yang
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abstractThe electrochemical carbon dioxide (CO 2 ) reduction (ECR) represents one of the most promising technologies for CO 2 conversion into value-added feedstock from carbon monoxide (CO) to a variety of hydrocarbons. As the raw material for FischerTropsch synthesis, CO is one of the most desirable ECR...
doi10.1039/c9ta09681g
pages25191-25202
date2019-11-12