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Unraveling the prominent role of the Rh/ZrO2-interface in the water-gas shift reaction via a first principles microkinetic study

Abstract
The industrially important water–gas-shift (WGS) reaction is a complex network of competing elementary reactions in which the catalyst is a multicomponent system consisting of distinct domains. Herein, we have combined density functional theory calculations with microkinetic modeling to explore the active phase, kinetics, and reaction mechanism of the WGS over the Rh–ZrO2 interface. We have explicitly considered the support and metal and their interface and find that the Rh–ZrO2 interface is far more active toward WGS than Rh(111) facets, which are susceptible to CO poisoning. CO2 forming on the zirconia support rapidly transforms into formate. These findings demonstrate the central role of the interface in the water–gas-shift reaction and the importance of modeling both the support and the metal in bifunctional systems.
Main Authors
Kauppinen, Minttu Melander, Marko Bazhenov, Andrey Honkala, Karoliina
Format
Articles Research article
Published
2018
Series
ACS Catalysis
Subjects
water-gas shift
heterogeneous catalysis
microkinetics
metal-support interface
kaasut
katalyysi
rajapintailmiöt
rajapinnat (pinnat)
kemialliset reaktiot
tiheysfunktionaaliteoria
Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/28691884
Publisher
American Chemical Society
The permanent address of the publication
https://urn.fi/URN:NBN:fi:jyu-201811124672Use this for linking
Review status
Peer reviewed
ISSN
2155-5435
DOI
https://doi.org/10.1021/acscatal.8b02596
Language
English
Published in
ACS Catalysis
Citation
  • Kauppinen, M., Melander, M., Bazhenov, A., & Honkala, K. (2018). Unraveling the prominent role of the Rh/ZrO2-interface in the water-gas shift reaction via a first principles microkinetic study. ACS Catalysis, 8(12), 11633-11647. https://doi.org/10.1021/acscatal.8b02596
License
In CopyrightOpen Access
Funder(s)
Research Council of Finland
Research Council of Finland
Funding program(s)
Akatemiahanke, SA
Tutkijatohtori, SA
Academy Project, AoF
Postdoctoral Researcher, AoF
Research Council of Finland
Additional information about funding
The work was funded by the Academy of Finland (https://www.aka.fi/en/, grant nos. 277222 to M.K., A.B., and H.K. and 307853 to M.M.) and the University of Jyväskylä. The electronic structure calculations were made possible by the computational resources provided by the CSC IT Center for Science, Espoo, Finland (https://www.csc.fi/en/). The authors thank Prof. Leon Lefferts and Dr. Yingnan Zhao for fruitful discussions.
Copyright© 2018 American Chemical Society

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