Recent progress in syngas production via catalytic CO2 hydrogenation reaction

[Display omitted] •Recent advances in catalyst design for the RWGS reaction are studied.•CO adsorption energy in transition metals may affect their CO2 hydrogenation product selectivity.•Different reaction mechanisms for the RWGS reaction are proposed.•Electron density, catalyst structure, and the p...

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Vydáno v:Applied catalysis. B, Environmental Ročník 295; s. 120319
Hlavní autoři: Bahmanpour, Ali M., Signorile, Matteo, Kröcher, Oliver
Médium: Journal Article
Jazyk:angličtina
Vydáno: Amsterdam Elsevier B.V 15.10.2021
Elsevier BV
Témata:
Carbon dioxide
Catalyst design
Catalysts
CO2 hydrogenation
Gas production
High temperature
Noble metals
Oil and gas production
Reaction mechanisms
Reaction synthesis
Reverse water-gas shift reaction
Selectivity
Stability
Synthesis gas
Catalyst design
Synthesis gas
Reverse water-gas shift reaction
CO2 hydrogenation
ISSN:0926-3373, 1873-3883
On-line přístup:Získat plný text
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Abstract [Display omitted] •Recent advances in catalyst design for the RWGS reaction are studied.•CO adsorption energy in transition metals may affect their CO2 hydrogenation product selectivity.•Different reaction mechanisms for the RWGS reaction are proposed.•Electron density, catalyst structure, and the presence of hydroxyl groups are vital for catalyst design. Synthesis gas production through the catalytic reverse water-gas shift (RWGS) reaction is an attractive option for the conversion of CO2 to fuels. Many metal-based catalysts have been introduced for this reaction in order to provide high activity, CO selectivity, and stability. Recently, progress has been made in catalyst design and understanding of the reaction mechanism, which has shed light on the characteristics of the catalysts needed for this reaction. Accordingly, new noble and non-noble metal-based catalysts with remarkable performance have been introduced for this reaction. However, there is still much room for catalyst improvement specifically in regard to catalyst stability at the high temperatures required for this reaction. There are also controversial arguments regarding the active sites of the reaction. This review highlights the recent progress in catalyst design and understanding of the reaction mechanism for the RWGS reaction and derives proposals for further improvements of the process.
AbstractList Synthesis gas production through the catalytic reverse water-gas shift (RWGS) reaction is an attractive option for the conversion of CO2 to fuels. Many metal-based catalysts have been introduced for this reaction in order to provide high activity, CO selectivity, and stability. Recently, progress has been made in catalyst design and understanding of the reaction mechanism, which has shed light on the characteristics of the catalysts needed for this reaction. Accordingly, new noble and non-noble metal-based catalysts with remarkable performance have been introduced for this reaction. However, there is still much room for catalyst improvement specifically in regard to catalyst stability at the high temperatures required for this reaction. There are also controversial arguments regarding the active sites of the reaction. This review highlights the recent progress in catalyst design and understanding of the reaction mechanism for the RWGS reaction and derives proposals for further improvements of the process.
[Display omitted] •Recent advances in catalyst design for the RWGS reaction are studied.•CO adsorption energy in transition metals may affect their CO2 hydrogenation product selectivity.•Different reaction mechanisms for the RWGS reaction are proposed.•Electron density, catalyst structure, and the presence of hydroxyl groups are vital for catalyst design. Synthesis gas production through the catalytic reverse water-gas shift (RWGS) reaction is an attractive option for the conversion of CO2 to fuels. Many metal-based catalysts have been introduced for this reaction in order to provide high activity, CO selectivity, and stability. Recently, progress has been made in catalyst design and understanding of the reaction mechanism, which has shed light on the characteristics of the catalysts needed for this reaction. Accordingly, new noble and non-noble metal-based catalysts with remarkable performance have been introduced for this reaction. However, there is still much room for catalyst improvement specifically in regard to catalyst stability at the high temperatures required for this reaction. There are also controversial arguments regarding the active sites of the reaction. This review highlights the recent progress in catalyst design and understanding of the reaction mechanism for the RWGS reaction and derives proposals for further improvements of the process.
ArticleNumber 120319
Author Kröcher, Oliver
Signorile, Matteo
Bahmanpour, Ali M.
Author_xml – sequence: 1
  givenname: Ali M.
  orcidid: 0000-0003-2092-9215
  surname: Bahmanpour
  fullname: Bahmanpour, Ali M.
  organization: Institute of Chemical Sciences and Engineering, École Polytechnique Fédérale de Lausanne (EPFL), 1015, Lausanne, Switzerland
– sequence: 2
  givenname: Matteo
  surname: Signorile
  fullname: Signorile, Matteo
  organization: Department of Chemistry, NIS Centre and INSTM Reference Center, University of Turin, via P. Giuria 7, 10125, Turin, Italy
– sequence: 3
  givenname: Oliver
  orcidid: 0000-0002-7268-7257
  surname: Kröcher
  fullname: Kröcher, Oliver
  email: oliver.kroecher@psi.ch
  organization: Institute of Chemical Sciences and Engineering, École Polytechnique Fédérale de Lausanne (EPFL), 1015, Lausanne, Switzerland
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ISSN 0926-3373
IngestDate Wed Aug 13 08:00:43 EDT 2025
Sat Nov 29 07:17:34 EST 2025
Tue Nov 18 22:15:34 EST 2025
Sat Mar 02 16:00:53 EST 2024
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Keywords Catalyst design
Synthesis gas
Reverse water-gas shift reaction
CO2 hydrogenation
Language English
License This is an open access article under the CC BY license.
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PublicationTitle Applied catalysis. B, Environmental
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Snippet [Display omitted] •Recent advances in catalyst design for the RWGS reaction are studied.•CO adsorption energy in transition metals may affect their CO2...
Synthesis gas production through the catalytic reverse water-gas shift (RWGS) reaction is an attractive option for the conversion of CO2 to fuels. Many...
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SubjectTerms Carbon dioxide
Catalyst design
Catalysts
CO2 hydrogenation
Gas production
High temperature
Noble metals
Oil and gas production
Reaction mechanisms
Reaction synthesis
Reverse water-gas shift reaction
Selectivity
Stability
Synthesis gas
Title Recent progress in syngas production via catalytic CO2 hydrogenation reaction
URI https://dx.doi.org/10.1016/j.apcatb.2021.120319
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