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Predictive design of engineered multifunctional solid catalysts

Predictive design of engineered multifunctional solid catalysts
Predictive design of engineered multifunctional solid catalysts
The ability to devise and design multifunctional active sites at the nanoscale, by drawing on the intricate ability of enzymes to evolve single-sites with distinctive catalytic function, has prompted complimentary and concordant developments in the field of catalyst design and in situ operando spectroscopy. Innovations in design-application approach have led to a more fundamental understanding of the nature of the active site and its mechanistic influence at a molecular level, that have enabled robust structure-property correlations to be established, which has facilitated the dextrous manipulation and predictive design of redox and solid-acid sites for industrially-significant, sustainable catalytic transformations.
1359-7345
5940-5957
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Potter, Matthew
34dee7dc-2f62-4022-bb65-fc7b7fb526d2
Newland, Stephanie
dc459841-89d5-4b96-b862-526b03f30e03
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Potter, Matthew
34dee7dc-2f62-4022-bb65-fc7b7fb526d2
Newland, Stephanie
dc459841-89d5-4b96-b862-526b03f30e03

Raja, Robert, Potter, Matthew and Newland, Stephanie (2014) Predictive design of engineered multifunctional solid catalysts. Chemical Communications, 50 (45), 5940-5957. (doi:10.1039/c4cc00834k). (PMID:24682048)

Record type: Article

Abstract

The ability to devise and design multifunctional active sites at the nanoscale, by drawing on the intricate ability of enzymes to evolve single-sites with distinctive catalytic function, has prompted complimentary and concordant developments in the field of catalyst design and in situ operando spectroscopy. Innovations in design-application approach have led to a more fundamental understanding of the nature of the active site and its mechanistic influence at a molecular level, that have enabled robust structure-property correlations to be established, which has facilitated the dextrous manipulation and predictive design of redox and solid-acid sites for industrially-significant, sustainable catalytic transformations.

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Published date: 18 March 2014
Organisations: Chemistry
Learn more about Chemistry research

Identifiers

Local EPrints ID: 367159
URI: http://eprints.soton.ac.uk/id/eprint/367159
DOI: doi:10.1039/c4cc00834k
ISSN: 1359-7345
PURE UUID: 6671fea7-8ae0-4c4c-83e1-761414932770
ORCID for Robert Raja: ORCID iD orcid.org/0000-0002-4161-7053
ORCID for Matthew Potter: ORCID iD orcid.org/0000-0001-9849-3306

Catalogue record

Date deposited: 23 Jul 2014 10:59
Last modified: 15 Mar 2024 03:26

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Contributors

Author: Robert Raja ORCID iD
Author: Matthew Potter ORCID iD
Author: Stephanie Newland

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