Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation

Adlington, Kevin; McSweeney, Robert; Dimitrakis, Georgios; Kingman, Samuel W.; Robinson, John P.; Irvine, Derek J.

doi:10.1039/c4ra00907j

Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation

Adlington, Kevin; McSweeney, Robert; Dimitrakis, Georgios; Kingman, Samuel W.; Robinson, John P.; Irvine, Derek J.

Authors

Kevin Adlington

Robert McSweeney

Dr GEORGIOS DIMITRAKIS GEORGIOS.DIMITRAKIS@NOTTINGHAM.AC.UK
ASSOCIATE PROFESSOR

Professor SAM KINGMAN SAM.KINGMAN@NOTTINGHAM.AC.UK
Interim Provost and Deputy Vice Chancellor

John P. Robinson

Professor DEREK IRVINE derek.irvine@nottingham.ac.uk
PROFESSOR OF MATERIALS CHEMISTRY

Abstract

An extremely facile, single stage, ‘in-situ’, Catalytic Chain Transfer Polymerisation (CCTP) process has been identified, where the optimal polymerisation process was shown to depend upon a combination of catalyst characteristics (i.e. solubility, sensitivity, activity) and the method of heating applied. In comparison to the current benchmark catalyst, the preparation of which is only about 40 % efficient, this represents a significant increase in waste prevention/atom efficiency and removes the need for organic solvent. It was also shown possible to significantly reduce the overall ‘in-situ’ reaction cycle time by adopting different processing strategies in order to minimise energy use. The application of microwave heating was demonstrated to overcome system diffusion/dilution issues and result in rapid, ‘in-situ’ catalyst formation. This allowed processing times to be minimised by enabling a critical concentration of the species susceptible to microwave selective heating to dominate the heat and mass transfer involved.

Citation

Adlington, K., McSweeney, R., Dimitrakis, G., Kingman, S. W., Robinson, J. P., & Irvine, D. J. (2014). Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation. RSC Advances, 4(31), 16172-16180. https://doi.org/10.1039/c4ra00907j

Journal Article Type	Article
Acceptance Date	Mar 7, 2014
Online Publication Date	Mar 11, 2014
Publication Date	Mar 11, 2014
Deposit Date	Nov 26, 2015
Publicly Available Date	Nov 26, 2015
Journal	RSC Advances
Electronic ISSN	2046-2069
Publisher	Royal Society of Chemistry
Peer Reviewed	Peer Reviewed
Volume	4
Issue	31
Pages	16172-16180
DOI	https://doi.org/10.1039/c4ra00907j
Public URL	https://nottingham-repository.worktribe.com/output/725197
Publisher URL	http://pubs.rsc.org/en/Content/ArticleLanding/2014/RA/C4RA00907J#!divAbstract
Additional Information	: This document is CrossCheck deposited; : Supplementary Information; : The Royal Society of Chemistry has an exclusive publication licence for this journal; OPEN ACCESS: The accepted version of this article will be made freely available after a 12 month embargo period; : Received 31 January 2014; Accepted 7 March 2014; Accepted Manuscript published 11 March 2014; Version of Record published 1 April 2014
Contract Date	Nov 26, 2015