CO2 hydrogenation to methanol over Rh/In2O3 catalyst

[Display omitted] •Rh/In2O3 catalyst shows high activity for hydrogenation of CO2 to methanol.•Rh/In2O3 catalyst possesses similar methanol selectivity (>70 %) as In2O3 under 275 °C.•Highly dispersed Rh catalyst enhances the dissociative adsorption and spillover of hydrogen.•The Rh loading promot...

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Published inCatalysis today Vol. 365; pp. 341 - 347
Main Authors Wang, Jing, Sun, Kaihang, Jia, Xinyu, Liu, Chang-jun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2021
Subjects
CO2
Hydrogenation
In2O3
Methanol
Oxygen vacancy
Hydrogenation
Rh
In2O3
CO2
Methanol
Oxygen vacancy
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Abstract [Display omitted] •Rh/In2O3 catalyst shows high activity for hydrogenation of CO2 to methanol.•Rh/In2O3 catalyst possesses similar methanol selectivity (>70 %) as In2O3 under 275 °C.•Highly dispersed Rh catalyst enhances the dissociative adsorption and spillover of hydrogen.•The Rh loading promotes the formation of surface oxygen vacancy of In2O3.•CO2 adsorption and activation are enhanced by surface oxygen vacancy of In2O3. CO2 hydrogenation to methanol is of great significance for the emission control and utilization of CO2. In this work, the Rh/In2O3 catalyst with high Rh dispersion was prepared by deposition-precipitation method. The catalyst characterization demonstrates that the highly dispersed Rh species promotes the dissociative adsorption and spillover of hydrogen, which further enhances not only the formation of surface oxygen vacancy of In2O3 but also CO2 adsorption and activation. Enhanced activity was thereby achieved for selective hydrogenation of CO2 to methanol. A CO2 conversion of 17.1 % with methanol selectivity of 56.1 %, corresponding to a methanol space time yield (STY) up to 0.5448 gMeOH h−1 gcat−1, has been obtained under 300 °C, 5 MPa, 76/19/5 of H2/CO2/N2 (molar ratio) and 21,000 cm3 h−1 g−1 of gas hourly space velocity. Under the same reaction condition, the CO2 conversion is only 9.4 % with a methanol STY of 0.3402 gMeOH h−1 gcat−1 over In2O3. The methanol selectivity can be even higher than 70 % at the reaction temperatures below 275 °C for Rh/In2O3 catalyst.
AbstractList [Display omitted] •Rh/In2O3 catalyst shows high activity for hydrogenation of CO2 to methanol.•Rh/In2O3 catalyst possesses similar methanol selectivity (>70 %) as In2O3 under 275 °C.•Highly dispersed Rh catalyst enhances the dissociative adsorption and spillover of hydrogen.•The Rh loading promotes the formation of surface oxygen vacancy of In2O3.•CO2 adsorption and activation are enhanced by surface oxygen vacancy of In2O3. CO2 hydrogenation to methanol is of great significance for the emission control and utilization of CO2. In this work, the Rh/In2O3 catalyst with high Rh dispersion was prepared by deposition-precipitation method. The catalyst characterization demonstrates that the highly dispersed Rh species promotes the dissociative adsorption and spillover of hydrogen, which further enhances not only the formation of surface oxygen vacancy of In2O3 but also CO2 adsorption and activation. Enhanced activity was thereby achieved for selective hydrogenation of CO2 to methanol. A CO2 conversion of 17.1 % with methanol selectivity of 56.1 %, corresponding to a methanol space time yield (STY) up to 0.5448 gMeOH h−1 gcat−1, has been obtained under 300 °C, 5 MPa, 76/19/5 of H2/CO2/N2 (molar ratio) and 21,000 cm3 h−1 g−1 of gas hourly space velocity. Under the same reaction condition, the CO2 conversion is only 9.4 % with a methanol STY of 0.3402 gMeOH h−1 gcat−1 over In2O3. The methanol selectivity can be even higher than 70 % at the reaction temperatures below 275 °C for Rh/In2O3 catalyst.
Author Sun, Kaihang
Wang, Jing
Liu, Chang-jun
Jia, Xinyu
Author_xml – sequence: 1
  givenname: Jing
  surname: Wang
  fullname: Wang, Jing
– sequence: 2
  givenname: Kaihang
  surname: Sun
  fullname: Sun, Kaihang
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  givenname: Xinyu
  surname: Jia
  fullname: Jia, Xinyu
– sequence: 4
  givenname: Chang-jun
  orcidid: 0000-0001-9918-1638
  surname: Liu
  fullname: Liu, Chang-jun
  email: coronacj@tju.edu.cn
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In2O3
CO2
Methanol
Oxygen vacancy
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Snippet [Display omitted] •Rh/In2O3 catalyst shows high activity for hydrogenation of CO2 to methanol.•Rh/In2O3 catalyst possesses similar methanol selectivity (>70 %)...
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StartPage 341
SubjectTerms CO2
Hydrogenation
In2O3
Methanol
Oxygen vacancy
Title CO2 hydrogenation to methanol over Rh/In2O3 catalyst
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