Low-temperature and purification-free stereocontrolled ring-opening polymerisation of lactide in supercritical carbon dioxide

Bassett, Simon P.; Russell, Andrew D.; McKeown, Paul; Robinson, Isabel; Forder, Thomas R.; Taresco, Vincenzo; Davidson, Matthew G.; Howdle, Steven M.

doi:10.1039/d0gc00352b

Low-temperature and purification-free stereocontrolled ring-opening polymerisation of lactide in supercritical carbon dioxide

Bassett, Simon P.; Russell, Andrew D.; McKeown, Paul; Robinson, Isabel; Forder, Thomas R.; Taresco, Vincenzo; Davidson, Matthew G.; Howdle, Steven M.

Authors

Simon P. Bassett

Andrew D. Russell

Paul McKeown

Isabel Robinson

Thomas R. Forder

Dr VINCENZO TARESCO VINCENZO.TARESCO@NOTTINGHAM.AC.UK
NOTTINGHAM RESEARCH FELLOW

Matthew G. Davidson

Professor STEVE HOWDLE STEVE.HOWDLE@NOTTINGHAM.AC.UK
PROFESSOR OF CHEMISTRY

Abstract

A stereoselective, solvent-free ring-opening polymerisation (ROP) of lactide (LA) in supercritical carbon dioxide (scCO2) is reported for the first time. The key aim is to exploit scCO2 to lower the temperature of traditional melt polymerisations, lowering the energy requirement and leading to cleaner polymeric materials. We have utilised a zirconium amine-trisphenolate initiator-stereoselective catalyst [(iPrO)Zr(OPh(tBu)2-CH2)3N] to yield highly heterotactic poly(lactide) (PLA) homopolymer (Pr = 0.74–0.84) from rac-LA, demonstrating control of the PLA microstructure in scCO2. In addition, high monomer conversion (86–93%) was achieved in short reaction time (1 h), affording poly(lactide) with a very low degree of transesterification and narrow molecular weight distribution. Most importantly, all the reactions were performed at only 80 °C, almost 100 °C lower than the conventional melt process (typically performed at 130–180 °C), representing a very significant potential energy saving.

Citation

Bassett, S. P., Russell, A. D., McKeown, P., Robinson, I., Forder, T. R., Taresco, V., Davidson, M. G., & Howdle, S. M. (2020). Low-temperature and purification-free stereocontrolled ring-opening polymerisation of lactide in supercritical carbon dioxide. Green Chemistry, 22(7), 2197-2202. https://doi.org/10.1039/d0gc00352b

Journal Article Type	Article
Acceptance Date	Mar 11, 2020
Online Publication Date	Mar 11, 2020
Publication Date	Apr 7, 2020
Deposit Date	Mar 24, 2020
Publicly Available Date	Mar 12, 2021
Journal	Green Chemistry
Print ISSN	1463-9262
Electronic ISSN	1463-9270
Publisher	Royal Society of Chemistry
Peer Reviewed	Peer Reviewed
Volume	22
Issue	7
Pages	2197-2202
DOI	https://doi.org/10.1039/d0gc00352b
Keywords	Pollution; Environmental Chemistry
Public URL	https://nottingham-repository.worktribe.com/output/4139203
Publisher URL	https://pubs.rsc.org/en/content/articlelanding/2020/GC/D0GC00352B#!divAbstract
Additional Information	: This document is Similarity Check deposited; : Supplementary Information; : Vincenzo Taresco (ORCID); : Steven M. Howdle (ORCID); : Steven M. Howdle (ResearcherID); : Single-blind; : Received 28 January 2020; Accepted 11 March 2020; Accepted Manuscript published 11 March 2020; Advance Article published 13 March 2020