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Probing the role of a non-thermal plasma (NTP) in the hybrid NTP-catalytic oxidation of CH4

Probing the role of a non-thermal plasma (NTP) in the hybrid NTP-catalytic oxidation of CH4
Probing the role of a non-thermal plasma (NTP) in the hybrid NTP-catalytic oxidation of CH4
Three recurring hypothesis are often used to explain the effect of non-thermal plasma (NTP) on NTP-catalytic hybrid reactions, namely, modification or heating of the catalyst or the ability of plasma produced species to open up new reaction pathways. By directly monitoring the catalyst by X-ray absorption fine structure (XAFS) coupled with end of pipe mass spectrometry the NTP assisted CH4 oxidation over Pd/Al2O3 was investigated. This in situ study has shown that the catalyst did not undergo any significant structural changes under NTP conditions. However, the NTP did lead to the Pd nanoparticle temperature increasing but this temperature rise was insufficient to activate the thermal CH4 oxidation reaction. The contribution of a lower activation barrier alternative reaction pathway involving the formation of CH3(g) via electron impact reactions is proposed.
1433-7851
Gibson, Emma
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Stere, Cristina
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Curran-McAteer, Bronagh
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Jones, Wilm
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Cibin, Giannantonio
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Gianolio, Diego
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Goguet, Alexandre
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Wells, Peter P.
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Catlow, Richard
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Collier, Paul
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Hinde, Peter
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Hardacre, Chris
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Gibson, Emma
ee19c340-8664-491f-8394-e50ad33d52ff
Stere, Cristina
f9a4e54a-79b5-4bed-86f9-e3c6f3a94884
Curran-McAteer, Bronagh
4ac56e77-f404-4917-bd98-7591dfc03f93
Jones, Wilm
5a831df0-a1c8-4a86-a948-4f4e9c438fa6
Cibin, Giannantonio
61a833d3-097f-4817-bcd3-6b26cf42dbe5
Gianolio, Diego
935ef06e-c7da-43f8-bd89-9aa5b7000c65
Goguet, Alexandre
4de6e217-9733-4d26-b041-ab996672d919
Wells, Peter P.
bc4fdc2d-a490-41bf-86cc-400edecf2266
Catlow, Richard
bb7f74c6-fe16-4920-8fd6-1735a120e459
Collier, Paul
d5a98bd6-227c-421e-92b3-80993e175998
Hinde, Peter
35f1b48e-b725-4c07-b1f6-96f37452e46d
Hardacre, Chris
3d760efc-1ac6-46e9-9c79-97f1de08d4f6

Gibson, Emma, Stere, Cristina, Curran-McAteer, Bronagh, Jones, Wilm, Cibin, Giannantonio, Gianolio, Diego, Goguet, Alexandre, Wells, Peter P., Catlow, Richard, Collier, Paul, Hinde, Peter and Hardacre, Chris (2017) Probing the role of a non-thermal plasma (NTP) in the hybrid NTP-catalytic oxidation of CH4. Angewandte Chemie International Edition. (In Press)

Record type: Article

Abstract

Three recurring hypothesis are often used to explain the effect of non-thermal plasma (NTP) on NTP-catalytic hybrid reactions, namely, modification or heating of the catalyst or the ability of plasma produced species to open up new reaction pathways. By directly monitoring the catalyst by X-ray absorption fine structure (XAFS) coupled with end of pipe mass spectrometry the NTP assisted CH4 oxidation over Pd/Al2O3 was investigated. This in situ study has shown that the catalyst did not undergo any significant structural changes under NTP conditions. However, the NTP did lead to the Pd nanoparticle temperature increasing but this temperature rise was insufficient to activate the thermal CH4 oxidation reaction. The contribution of a lower activation barrier alternative reaction pathway involving the formation of CH3(g) via electron impact reactions is proposed.

Text
CH4 oxidation Plasma Angewandte 2nd revision submitted - Accepted Manuscript
Available under License University of Southampton Accepted Manuscript Licence.
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Accepted/In Press date: 16 June 2017

Identifiers

Local EPrints ID: 412131
URI: http://eprints.soton.ac.uk/id/eprint/412131
ISSN: 1433-7851
PURE UUID: 3754c2a6-045b-45cf-a43b-2ac759873472
ORCID for Peter P. Wells: ORCID iD orcid.org/0000-0002-0859-9172

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Date deposited: 11 Jul 2017 16:31
Last modified: 16 Mar 2024 05:31

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Contributors

Author: Emma Gibson
Author: Cristina Stere
Author: Bronagh Curran-McAteer
Author: Wilm Jones
Author: Giannantonio Cibin
Author: Diego Gianolio
Author: Alexandre Goguet
Author: Peter P. Wells ORCID iD
Author: Richard Catlow
Author: Paul Collier
Author: Peter Hinde
Author: Chris Hardacre

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