Designing bifunctional catalysts for the one-pot conversion of CO2 to sustainable marine transportation fuels
Designing bifunctional catalysts for the one-pot conversion of CO2 to sustainable marine transportation fuels
Meeting ambitious net-zero targets will require the replacement of marine fossil fuels with sustainable alternatives such as dimethyl ether (DME). DME is non-toxic, can be fully produced via a circular carbon economy and can be rapidly deployed due to its compatibility with existing liquid petroleum gas infrastructure. One-pot production of DME from CO2 via a methanol intermediate is achieved by combining redox and Brønsted or Lewis acid sites. Herein, we have synthesised, characterised and tested a variety of bifunctional CuZnO/silicoaluminophosphate catalysts for the one-pot production of DME. A range of synthetic approaches were employed to combine the redox and acidic functionalities in order to derive synthesis–structure–property correlations to guide the design of improved catalysts. We found that a CuZnO/SAPO-34 catalyst made via impregnation and drying can achieve 80% DME selectivity with no detectable toxic CO by-product formation. High acid site abundance resulted in extensive dehydration of the intermediate methanol, which increased localised water production, suppressing the CO-forming reverse water gas shift reaction and thus yielding exceptional DME selectivity that is amongst the highest in literature.
3853-3863
Walerowski, Maciej G.
ed579c7b-aae2-4426-a50d-d2d8bfe11dbb
Potter, Matthew E.
34dee7dc-2f62-4022-bb65-fc7b7fb526d2
Burke, Elizabeth S.
093cc4a7-e140-46e8-b3fd-4310699bb5e1
Kyrimis, Stylianos
47a25c0c-7579-4e74-963e-e0d4360cd24a
Armstrong, Lindsay-Marie
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Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
2 April 2024
Walerowski, Maciej G.
ed579c7b-aae2-4426-a50d-d2d8bfe11dbb
Potter, Matthew E.
34dee7dc-2f62-4022-bb65-fc7b7fb526d2
Burke, Elizabeth S.
093cc4a7-e140-46e8-b3fd-4310699bb5e1
Kyrimis, Stylianos
47a25c0c-7579-4e74-963e-e0d4360cd24a
Armstrong, Lindsay-Marie
db493663-2457-4f84-9646-15538c653998
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Walerowski, Maciej G., Potter, Matthew E., Burke, Elizabeth S., Kyrimis, Stylianos, Armstrong, Lindsay-Marie and Raja, Robert
(2024)
Designing bifunctional catalysts for the one-pot conversion of CO2 to sustainable marine transportation fuels.
Catalysis Science & Technology, 14 (14), .
(doi:10.1039/D4CY00020J).
Abstract
Meeting ambitious net-zero targets will require the replacement of marine fossil fuels with sustainable alternatives such as dimethyl ether (DME). DME is non-toxic, can be fully produced via a circular carbon economy and can be rapidly deployed due to its compatibility with existing liquid petroleum gas infrastructure. One-pot production of DME from CO2 via a methanol intermediate is achieved by combining redox and Brønsted or Lewis acid sites. Herein, we have synthesised, characterised and tested a variety of bifunctional CuZnO/silicoaluminophosphate catalysts for the one-pot production of DME. A range of synthetic approaches were employed to combine the redox and acidic functionalities in order to derive synthesis–structure–property correlations to guide the design of improved catalysts. We found that a CuZnO/SAPO-34 catalyst made via impregnation and drying can achieve 80% DME selectivity with no detectable toxic CO by-product formation. High acid site abundance resulted in extensive dehydration of the intermediate methanol, which increased localised water production, suppressing the CO-forming reverse water gas shift reaction and thus yielding exceptional DME selectivity that is amongst the highest in literature.
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d4cy00020j
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Accepted/In Press date: 2 April 2024
e-pub ahead of print date: 2 April 2024
Published date: 2 April 2024
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© 2024 The Royal Society of Chemistry.
Identifiers
Local EPrints ID: 489103
URI: http://eprints.soton.ac.uk/id/eprint/489103
ISSN: 2044-4753
PURE UUID: e49e771e-e65b-422b-9e18-9f0dc28f5929
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Date deposited: 15 Apr 2024 16:33
Last modified: 11 Dec 2024 03:09
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Author:
Maciej G. Walerowski
Author:
Elizabeth S. Burke
Author:
Stylianos Kyrimis
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