Structural behaviour of copper chloride catalysts during the chlorination of CO to phosgene.
Structural behaviour of copper chloride catalysts during the chlorination of CO to phosgene.
The interaction of CO with an attapulgite-supported Cu(II)Cl2 catalyst has been examined in a micro-reactor arrangement. CO exposure to the dried, as-received catalyst at elevated temperatures leads to the formation of CO2 as the only identifiable product. However, phosgene production can be induced by a catalyst pre-treatment where the supported Cu(II)Cl2 sample is exposed to a diluted stream of chlorine. Subsequent CO exposure at 370C then leads to phosgene production. In order to investigate the origins of this atypical set of reaction characteristics, a series of x-ray absorption experiments were performed that were supplemented by DFT calculations. XANES measurements establish that at the elevated temperatures connected with phosgene formation, the catalyst is comprised of Cu+ and a small amount of Cu2+. Moreover, the data show that unique to the chlorine pre-treated sample, CO exposure at elevated temperature results in a short-lived oxidation of the copper. On the basis of calculated CO adsorption energies, DFT calculations indicate that a mixed Cu+/Cu2+ catalyst is required to support CO chemisorption.
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Guan, Shaoliang
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Davies, Philip R.
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Gibson, Emma K.
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Lennon, David
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Rossi, Giovanni E.
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Winfield, John M.
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Callison, June
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Wells, Peter P.
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Willock, David J.
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Guan, Shaoliang
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Davies, Philip R.
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Gibson, Emma K.
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Lennon, David
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Rossi, Giovanni E.
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Winfield, John M.
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Callison, June
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Wells, Peter P.
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Willock, David J.
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Guan, Shaoliang, Davies, Philip R., Gibson, Emma K., Lennon, David, Rossi, Giovanni E., Winfield, John M., Callison, June, Wells, Peter P. and Willock, David J.
(2018)
Structural behaviour of copper chloride catalysts during the chlorination of CO to phosgene.
Faraday Discussions, .
(doi:10.1039/C8FD00005K).
Abstract
The interaction of CO with an attapulgite-supported Cu(II)Cl2 catalyst has been examined in a micro-reactor arrangement. CO exposure to the dried, as-received catalyst at elevated temperatures leads to the formation of CO2 as the only identifiable product. However, phosgene production can be induced by a catalyst pre-treatment where the supported Cu(II)Cl2 sample is exposed to a diluted stream of chlorine. Subsequent CO exposure at 370C then leads to phosgene production. In order to investigate the origins of this atypical set of reaction characteristics, a series of x-ray absorption experiments were performed that were supplemented by DFT calculations. XANES measurements establish that at the elevated temperatures connected with phosgene formation, the catalyst is comprised of Cu+ and a small amount of Cu2+. Moreover, the data show that unique to the chlorine pre-treated sample, CO exposure at elevated temperature results in a short-lived oxidation of the copper. On the basis of calculated CO adsorption energies, DFT calculations indicate that a mixed Cu+/Cu2+ catalyst is required to support CO chemisorption.
Text
2018-01-12 Oxy-chlor Farad_paper_DJWfinal
- Accepted Manuscript
More information
Accepted/In Press date: 16 January 2018
e-pub ahead of print date: 20 February 2018
Identifiers
Local EPrints ID: 418986
URI: http://eprints.soton.ac.uk/id/eprint/418986
ISSN: 0301-7249
PURE UUID: 69ea6714-8a37-4c71-b291-eca709e78a8a
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Date deposited: 27 Mar 2018 16:30
Last modified: 16 Mar 2024 06:24
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Contributors
Author:
Shaoliang Guan
Author:
Philip R. Davies
Author:
Emma K. Gibson
Author:
David Lennon
Author:
Giovanni E. Rossi
Author:
John M. Winfield
Author:
June Callison
Author:
David J. Willock
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