Benign by design. New catalysts for an environmentally conscious age
Benign by design. New catalysts for an environmentally conscious age
There is a pressing need for: (i) cleaner fuels (free of aromatics and of minimal sulfur content) or ones that convert chemical energy directly to electricity, silently and without production of noxious oxides and particulates; (ii) chemical, petrochemical, and pharmaceutical processes that may be conducted in a one-step, solvent-free manner, and that use air as the preferred oxidant; and (iii) industrial processes that minimize consumption of energy, production of waste or the use of corrosive, explosive, volatile and nonbiodegradable materials. All these needs and other desiderata, such as the in situ production and containment of aggressive and hazardous reagents, and the avoidance of use of ecologically harmful elements, may be achieved by designing the appropriate heterogeneous inorganic catalyst, which, ideally should be cheap, readily preparable, and fully characterizable, preferably under in situ reaction conditions. A range of nanoporous and nanoparticle catalysts, designed, synthesized, characterized, and tested by the authors and their colleagues, that meet most of the stringent demands of sustainable development and responsible (clean) technologyis described. Specific examples that are highlighted include: (a) the production ofadipic acid (precursor of polyamides and urethanes) without the use of concentrated nitric acid or the production of greenhouse gases such as nitrous oxide; (b) the production of caprolactam (precursor of nylon) without the use of oleum and hydroxylamine sulfate; and (c) the terminal oxyfunctionalization of linear alkanes in air. The topic of biocatalysis and sustainable development is also briefly discussed, and a cautionary note is sounded concerning fast screening methods for the discovery of new inorganic catalysts.
adipic acid, aerial oxidation, selective oxidation
1087-1101
Thomas, J.M.
98879775-7bc8-4aeb-89c1-da6c60c856c2
Raja, R.
74faf442-38a6-4ac1-84f9-b3c039cb392b
Sankar, G.
38b9039e-7899-467b-887a-60397cd25a5e
Bell, R.G.
47370131-9e06-45a4-b694-d9d62dac2224
Lewis, D.W.
ee1c2c01-5527-4674-aa93-afb02f7426c0
2001
Thomas, J.M.
98879775-7bc8-4aeb-89c1-da6c60c856c2
Raja, R.
74faf442-38a6-4ac1-84f9-b3c039cb392b
Sankar, G.
38b9039e-7899-467b-887a-60397cd25a5e
Bell, R.G.
47370131-9e06-45a4-b694-d9d62dac2224
Lewis, D.W.
ee1c2c01-5527-4674-aa93-afb02f7426c0
Thomas, J.M., Raja, R., Sankar, G., Bell, R.G. and Lewis, D.W.
(2001)
Benign by design. New catalysts for an environmentally conscious age.
Pure and Applied Chemistry, 73 (7), .
Abstract
There is a pressing need for: (i) cleaner fuels (free of aromatics and of minimal sulfur content) or ones that convert chemical energy directly to electricity, silently and without production of noxious oxides and particulates; (ii) chemical, petrochemical, and pharmaceutical processes that may be conducted in a one-step, solvent-free manner, and that use air as the preferred oxidant; and (iii) industrial processes that minimize consumption of energy, production of waste or the use of corrosive, explosive, volatile and nonbiodegradable materials. All these needs and other desiderata, such as the in situ production and containment of aggressive and hazardous reagents, and the avoidance of use of ecologically harmful elements, may be achieved by designing the appropriate heterogeneous inorganic catalyst, which, ideally should be cheap, readily preparable, and fully characterizable, preferably under in situ reaction conditions. A range of nanoporous and nanoparticle catalysts, designed, synthesized, characterized, and tested by the authors and their colleagues, that meet most of the stringent demands of sustainable development and responsible (clean) technologyis described. Specific examples that are highlighted include: (a) the production ofadipic acid (precursor of polyamides and urethanes) without the use of concentrated nitric acid or the production of greenhouse gases such as nitrous oxide; (b) the production of caprolactam (precursor of nylon) without the use of oleum and hydroxylamine sulfate; and (c) the terminal oxyfunctionalization of linear alkanes in air. The topic of biocatalysis and sustainable development is also briefly discussed, and a cautionary note is sounded concerning fast screening methods for the discovery of new inorganic catalysts.
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Published date: 2001
Keywords:
adipic acid, aerial oxidation, selective oxidation
Identifiers
Local EPrints ID: 54155
URI: http://eprints.soton.ac.uk/id/eprint/54155
ISSN: 0033-4545
PURE UUID: 07c1ab8f-570a-4f17-b129-dc22d8ce3b83
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Date deposited: 31 Jul 2008
Last modified: 09 Jan 2022 03:22
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Contributors
Author:
J.M. Thomas
Author:
G. Sankar
Author:
R.G. Bell
Author:
D.W. Lewis
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