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Localized thermal levering events drive spontaneous kinetic oscillations during CO oxidation on Rh/Al2O3

Localized thermal levering events drive spontaneous kinetic oscillations during CO oxidation on Rh/Al2O3
Localized thermal levering events drive spontaneous kinetic oscillations during CO oxidation on Rh/Al2O3
Unravelling kinetic oscillations, which arise spontaneously during catalysis, has been a challenge for decades but is important not only to understand these complex phenomena but also to achieve increased activity. Here we show, through temporally and spatially resolved operando analysis, that CO oxidation over Rh/Al2O3 involves a series of thermal levering events—CO oxidation, Boudouard reaction and carbon combustion—that drive oscillatory CO2 formation. This catalytic sequence relies on harnessing localized temperature episodes at the nanoparticle level as an efficient means to drive reactions in situations in which the macroscopic conditions are unfavourable for catalysis. This insight provides a new basis for coupling thermal events at the nanoscale for efficient harvesting of energy and enhanced catalyst technologies.
2520-1158
Decarolis, Donato
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Panchal, Monik
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Quesne, Matthew
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Mohammed, Khaled
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Xu, Shaojun
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Isaacs, Mark
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Clark, Adam H.
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Keenan, Luke
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Wakisaka, Takuo
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Kusada, Kohei
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Kitagawa, Hiroshi
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Catlow, C. Richard A.
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Gibson, Emma K.
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Goguet, Alexandre
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Wells, Peter P.
bc4fdc2d-a490-41bf-86cc-400edecf2266
Decarolis, Donato
03364b3b-270b-4666-abee-36a8d455eadc
Panchal, Monik
ed0fef23-7e85-4bbe-b173-31cd7a4ef7ad
Quesne, Matthew
2b4e864d-614a-4a2a-abbc-79a4c8e4983f
Mohammed, Khaled
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Xu, Shaojun
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Isaacs, Mark
2c59e1b2-d1aa-4ec8-9032-72820e8cacb0
Clark, Adam H.
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Keenan, Luke
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Wakisaka, Takuo
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Kusada, Kohei
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Kitagawa, Hiroshi
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Catlow, C. Richard A.
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Gibson, Emma K.
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Goguet, Alexandre
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Wells, Peter P.
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Decarolis, Donato, Panchal, Monik, Quesne, Matthew, Mohammed, Khaled, Xu, Shaojun, Isaacs, Mark, Clark, Adam H., Keenan, Luke, Wakisaka, Takuo, Kusada, Kohei, Kitagawa, Hiroshi, Catlow, C. Richard A., Gibson, Emma K., Goguet, Alexandre and Wells, Peter P. (2024) Localized thermal levering events drive spontaneous kinetic oscillations during CO oxidation on Rh/Al2O3. Nature Catalysis. (doi:10.1038/s41929-024-01181-w).

Record type: Article

Abstract

Unravelling kinetic oscillations, which arise spontaneously during catalysis, has been a challenge for decades but is important not only to understand these complex phenomena but also to achieve increased activity. Here we show, through temporally and spatially resolved operando analysis, that CO oxidation over Rh/Al2O3 involves a series of thermal levering events—CO oxidation, Boudouard reaction and carbon combustion—that drive oscillatory CO2 formation. This catalytic sequence relies on harnessing localized temperature episodes at the nanoparticle level as an efficient means to drive reactions in situations in which the macroscopic conditions are unfavourable for catalysis. This insight provides a new basis for coupling thermal events at the nanoscale for efficient harvesting of energy and enhanced catalyst technologies.

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s41929-024-01181-w - Version of Record
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Accepted/In Press date: 28 May 2024
e-pub ahead of print date: 2 July 2024
Published date: 2 July 2024
Additional Information: Publisher Copyright: © The Author(s) 2024.

Identifiers

Local EPrints ID: 491863
URI: http://eprints.soton.ac.uk/id/eprint/491863
DOI: doi:10.1038/s41929-024-01181-w
ISSN: 2520-1158
PURE UUID: be26af46-54b9-4234-bab3-676822319f4f
ORCID for Khaled Mohammed: ORCID iD orcid.org/0000-0002-9538-0936
ORCID for Peter P. Wells: ORCID iD orcid.org/0000-0002-0859-9172

Catalogue record

Date deposited: 04 Jul 2024 17:26
Last modified: 20 Jul 2024 02:01

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Contributors

Author: Donato Decarolis
Author: Monik Panchal
Author: Matthew Quesne
Author: Khaled Mohammed ORCID iD
Author: Shaojun Xu
Author: Mark Isaacs
Author: Adam H. Clark
Author: Luke Keenan
Author: Takuo Wakisaka
Author: Kohei Kusada
Author: Hiroshi Kitagawa
Author: C. Richard A. Catlow
Author: Emma K. Gibson
Author: Alexandre Goguet
Author: Peter P. Wells ORCID iD

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