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Sustainable catalytic epoxidation of biorenewable terpene feedstocks using H2O2 as an oxidant in flow microreactors

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posted on 2023-07-14, 08:58 authored by Joshua D Tibbetts, William B Cunningham, Massimiliano Vezzoli, Pawel Plucinski, Steven D Bull

 Solvent-free continuous flow epoxidation of the alkene bonds of a range of biorenewable terpene substrates have been carried out using a recyclable tungsten-based polyoxometalate phase transfer catalyst and aqueous H2O2 as a benign oxidant. These sustainable flow epoxidation reactions are carried out in commercial microreactors containing static mixing channels that enable common monoterpenes (e.g. untreated crude sulfate turpentine, limonene, etc.) to be safely epoxidized in short reaction times and in good yields. These flow procedures are applicable for the flow epoxidation of trisubstituted and disubstituted alkenes for the safe production of multigram quantities of a wide range of epoxides. 

Funding

We would like to thank EPSRC for funding through “Terpene-based Manufacturing for Sustainable Chemical Feedstocks” EP/K014889 and the Centre for Doctoral Training in Sustainable Chemical Technologies (EP/L016354/1)

History

Citation

Tibbetts, J.D., Cunningham, W.B., Vezzoli, M., Plucinski, P. and Bull, S.D., 2021. Sustainable catalytic epoxidation of biorenewable terpene feedstocks using H 2 O 2 as an oxidant in flow microreactors. Green Chemistry, 23(15), pp.5449-5455.

Author affiliation

School of Chemistry, University of Leicester

Version

  • VoR (Version of Record)

Published in

Green Chemistry

Volume

23

Issue

15

Pagination

5449 - 5455

Publisher

Royal Society of Chemistry

issn

1463-9262

eissn

1463-9270

Acceptance date

2021-07-06

Copyright date

2021

Available date

2021-07-06

Language

en

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