Molecular-sieve catalysts for the selective oxidation of linear alkanes by molecular oxygen
Molecular-sieve catalysts for the selective oxidation of linear alkanes by molecular oxygen
Terminally oxidized hydrocarbons are of considerable interest as potential feedstocks for the chemical and pharmaceutical industry, but the selective oxidation of only the terminal methyl groups in alkanes remains a challenging task. It is accomplished with high efficiency and selectivity by some enzymes; but inorganic catalysts, although inferior in overall performance under benign conditions, offer significant advantages from a processing standpoint1. Controlled partial oxidation is easier to achieve with 'sacrificial' oxidants, such as hydrogen peroxide2, alkyl hydroperoxides oriodosylbenzene3, than with molecular oxygen or air. These sacrificial oxidants, themselves the product of oxidation reactions, have been used in catalytic systems involving tailored transition-metal complexes in either a homogeneous state4, 5, 6, encapsulated in molecular sieves7, 8, 9 or anchored to the inner surfaces of porous siliceous supports10. Here we report the design and performance of two aluminophosphate molecular sieves containing isolated, four-coordinated Co(III) or Mn(III) ions that are substituted into the framework and act, in concert with the surrounding framework structure, as regioselective catalysts for the oxidation of linear alkanes by molecular oxygen. The catalysts operate at temperatures between 373 K and 403 K through a classical free-radical chain-autoxidation mechanism. They are thus able to use molecular oxygen as oxidant, which, in combination with their good overall performance, raises the prospect of using this type of selective inorganic catalyst for industrial oxidation processes.
227-230
Thomas, John Meurig
f1d9bb61-4e2c-4c4b-8115-953d0f3d36bd
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Sankar, Gopinathan
31dc72ca-310b-407f-9d6c-856dbfb2e2d1
Bell, Robert G.
47951797-cf55-4b61-bc7a-25a1da365711
1999
Thomas, John Meurig
f1d9bb61-4e2c-4c4b-8115-953d0f3d36bd
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Sankar, Gopinathan
31dc72ca-310b-407f-9d6c-856dbfb2e2d1
Bell, Robert G.
47951797-cf55-4b61-bc7a-25a1da365711
Thomas, John Meurig, Raja, Robert, Sankar, Gopinathan and Bell, Robert G.
(1999)
Molecular-sieve catalysts for the selective oxidation of linear alkanes by molecular oxygen.
Nature, 398 (6724), .
(doi:10.1038/18417).
Abstract
Terminally oxidized hydrocarbons are of considerable interest as potential feedstocks for the chemical and pharmaceutical industry, but the selective oxidation of only the terminal methyl groups in alkanes remains a challenging task. It is accomplished with high efficiency and selectivity by some enzymes; but inorganic catalysts, although inferior in overall performance under benign conditions, offer significant advantages from a processing standpoint1. Controlled partial oxidation is easier to achieve with 'sacrificial' oxidants, such as hydrogen peroxide2, alkyl hydroperoxides oriodosylbenzene3, than with molecular oxygen or air. These sacrificial oxidants, themselves the product of oxidation reactions, have been used in catalytic systems involving tailored transition-metal complexes in either a homogeneous state4, 5, 6, encapsulated in molecular sieves7, 8, 9 or anchored to the inner surfaces of porous siliceous supports10. Here we report the design and performance of two aluminophosphate molecular sieves containing isolated, four-coordinated Co(III) or Mn(III) ions that are substituted into the framework and act, in concert with the surrounding framework structure, as regioselective catalysts for the oxidation of linear alkanes by molecular oxygen. The catalysts operate at temperatures between 373 K and 403 K through a classical free-radical chain-autoxidation mechanism. They are thus able to use molecular oxygen as oxidant, which, in combination with their good overall performance, raises the prospect of using this type of selective inorganic catalyst for industrial oxidation processes.
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Published date: 1999
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Local EPrints ID: 176909
URI: http://eprints.soton.ac.uk/id/eprint/176909
ISSN: 0028-0836
PURE UUID: b1b2bdfb-358f-49d3-8541-06c077baa740
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Date deposited: 11 Mar 2011 15:32
Last modified: 14 Mar 2024 02:51
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Author:
John Meurig Thomas
Author:
Gopinathan Sankar
Author:
Robert G. Bell
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