Utilizing benign oxidants for selective aerobic oxidations using heterogenized platinum nanoparticle catalysts
Utilizing benign oxidants for selective aerobic oxidations using heterogenized platinum nanoparticle catalysts
By using platinum nanoparticle catalysts that are generated in situ by extrusion from a porous copper chlorophosphate framework, the role of oxidants in the selective oxidation of benzyl alcohol to benzaldehyde was evaluated, with a view to establishing structure-property relationships. With a detailed study of the kinetic properties of the oxidation reaction, it has been determined that the aerobic oxidation pathways progress with lower levels of product selectivity and higher activation energies (72.4 kJmol(-1)) than the peroxide-based ones (23.6 kJmol(-1)); affording valuable insights in the design of solid catalysts for selective oxidation reactions. Furthermore, through the use of X-ray absorption spectroscopy, the effect of calcination temperature on the degree of extrusion and its influence on nanoparticle formation have been evaluated, leading to the establishment of structure-activity correlations between the observed activation energies and the proportion of nanoparticle species generated.
1226-1230
Hinde, Christopher
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Gill, Arran
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Wells, Peter
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Hor, T.S. Andy
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Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
August 2015
Hinde, Christopher
08da9ba4-06f6-433c-a6f9-269441ffa557
Gill, Arran
db3a2ff8-27f5-4d40-a895-69b3900f7624
Wells, Peter
bc4fdc2d-a490-41bf-86cc-400edecf2266
Hor, T.S. Andy
927efbd5-178d-488f-a9a2-917bc2b6975c
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Hinde, Christopher, Gill, Arran, Wells, Peter, Hor, T.S. Andy and Raja, Robert
(2015)
Utilizing benign oxidants for selective aerobic oxidations using heterogenized platinum nanoparticle catalysts.
ChemPlusChem, 80 (8), .
(doi:10.1002/cplu.201500195).
Abstract
By using platinum nanoparticle catalysts that are generated in situ by extrusion from a porous copper chlorophosphate framework, the role of oxidants in the selective oxidation of benzyl alcohol to benzaldehyde was evaluated, with a view to establishing structure-property relationships. With a detailed study of the kinetic properties of the oxidation reaction, it has been determined that the aerobic oxidation pathways progress with lower levels of product selectivity and higher activation energies (72.4 kJmol(-1)) than the peroxide-based ones (23.6 kJmol(-1)); affording valuable insights in the design of solid catalysts for selective oxidation reactions. Furthermore, through the use of X-ray absorption spectroscopy, the effect of calcination temperature on the degree of extrusion and its influence on nanoparticle formation have been evaluated, leading to the establishment of structure-activity correlations between the observed activation energies and the proportion of nanoparticle species generated.
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e-pub ahead of print date: 29 June 2015
Published date: August 2015
Organisations:
Organic Chemistry: SCF
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Local EPrints ID: 395577
URI: http://eprints.soton.ac.uk/id/eprint/395577
PURE UUID: 6c9c7037-5188-4bb7-9c3c-788571ffb964
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Date deposited: 01 Jun 2016 14:03
Last modified: 15 Mar 2024 03:26
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Author:
Christopher Hinde
Author:
Arran Gill
Author:
T.S. Andy Hor
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