Synthesis of Biorenewable Terpene Monomers Using Enzymatic Epoxidation under Heterogeneous Batch and Continuous Flow Conditions

Arianna Brandolese; David H. Lamparelli; Miquel A. Pericàs; Arjan W. Kleij

doi:10.1021/acssuschemeng.3c00370

Synthesis of Biorenewable Terpene Monomers Using Enzymatic Epoxidation under Heterogeneous Batch and Continuous Flow Conditions

Arianna Brandolese^*, David H. Lamparelli, Miquel A. Pericàs, Arjan W. Kleij^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

A commercially available Lipase B from Candida antarctica immobilized onto a macroporous support (Novozym 435) has been employed in the presence of H₂O₂ as a benign oxidant for the epoxidation of various biorenewable terpenes. This epoxidation protocol was explored under both heterogeneous batch and continuous flow conditions. The catalyst recyclability was also investigated demonstrating good activity throughout 10 cycles under batch conditions, while the same catalyst system could also be productively used under continuous flow operation for more than 30 h. This practical and relatively safe sustainable flow epoxidation of di- and trisubstituted alkenes by H₂O₂ allows for the production of gram quantities of a range of terpene epoxides. As a proof of principle, the same protocol can also be applied to the epoxidation of biobased polymers as a means to post-functionalize these macromolecules and equip them with cross-linkable epoxy groups.

Original language	English
Pages (from-to)	4885-4893
Number of pages	9
Journal	ACS Sustainable Chemistry and Engineering
Volume	11
Issue number	12
Early online date	16 Mar 2023
DOIs	https://doi.org/10.1021/acssuschemeng.3c00370
Publication status	Published - 27 Mar 2023

Bibliographical note

Funding Information:
The authors thank the CERCA program/Generalitat de Catalunya, ICREA, MICINN (PID2020-112684GB-100, PID2019-109236RB-I00, the Severo Ochoa Excellence Accreditation 2020–2023 CEX2019-000925-S) and the ERDF (European Regional Development Fund) through the POCTEFA Interreg program (EFA308/19, TRIPyr) for support. D.H.L. acknowledges MICINN for a postdoctoral fellowship (PDC2021-120952-I00, MacroLemon). The authors further thank Isobionics for a kind donation of β-elemene and Novozyme for the generous donation of Novozym 435.

Publisher Copyright:
© 2023 American Chemical Society.

Keywords

continuous flow
enzymatic catalysis
epoxidation
polymers
terpenes

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry
General Chemical Engineering
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1021/acssuschemeng.3c00370

Cite this

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title = "Synthesis of Biorenewable Terpene Monomers Using Enzymatic Epoxidation under Heterogeneous Batch and Continuous Flow Conditions",

abstract = "A commercially available Lipase B from Candida antarctica immobilized onto a macroporous support (Novozym 435) has been employed in the presence of H2O2 as a benign oxidant for the epoxidation of various biorenewable terpenes. This epoxidation protocol was explored under both heterogeneous batch and continuous flow conditions. The catalyst recyclability was also investigated demonstrating good activity throughout 10 cycles under batch conditions, while the same catalyst system could also be productively used under continuous flow operation for more than 30 h. This practical and relatively safe sustainable flow epoxidation of di- and trisubstituted alkenes by H2O2 allows for the production of gram quantities of a range of terpene epoxides. As a proof of principle, the same protocol can also be applied to the epoxidation of biobased polymers as a means to post-functionalize these macromolecules and equip them with cross-linkable epoxy groups.",

keywords = "continuous flow, enzymatic catalysis, epoxidation, polymers, terpenes",

author = "Arianna Brandolese and Lamparelli, {David H.} and Peric{\`a}s, {Miquel A.} and Kleij, {Arjan W.}",

note = "Funding Information: The authors thank the CERCA program/Generalitat de Catalunya, ICREA, MICINN (PID2020-112684GB-100, PID2019-109236RB-I00, the Severo Ochoa Excellence Accreditation 2020–2023 CEX2019-000925-S) and the ERDF (European Regional Development Fund) through the POCTEFA Interreg program (EFA308/19, TRIPyr) for support. D.H.L. acknowledges MICINN for a postdoctoral fellowship (PDC2021-120952-I00, MacroLemon). The authors further thank Isobionics for a kind donation of β-elemene and Novozyme for the generous donation of Novozym 435. Publisher Copyright: {\textcopyright} 2023 American Chemical Society.",

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AU - Kleij, Arjan W.

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PY - 2023/3/27

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N2 - A commercially available Lipase B from Candida antarctica immobilized onto a macroporous support (Novozym 435) has been employed in the presence of H2O2 as a benign oxidant for the epoxidation of various biorenewable terpenes. This epoxidation protocol was explored under both heterogeneous batch and continuous flow conditions. The catalyst recyclability was also investigated demonstrating good activity throughout 10 cycles under batch conditions, while the same catalyst system could also be productively used under continuous flow operation for more than 30 h. This practical and relatively safe sustainable flow epoxidation of di- and trisubstituted alkenes by H2O2 allows for the production of gram quantities of a range of terpene epoxides. As a proof of principle, the same protocol can also be applied to the epoxidation of biobased polymers as a means to post-functionalize these macromolecules and equip them with cross-linkable epoxy groups.

AB - A commercially available Lipase B from Candida antarctica immobilized onto a macroporous support (Novozym 435) has been employed in the presence of H2O2 as a benign oxidant for the epoxidation of various biorenewable terpenes. This epoxidation protocol was explored under both heterogeneous batch and continuous flow conditions. The catalyst recyclability was also investigated demonstrating good activity throughout 10 cycles under batch conditions, while the same catalyst system could also be productively used under continuous flow operation for more than 30 h. This practical and relatively safe sustainable flow epoxidation of di- and trisubstituted alkenes by H2O2 allows for the production of gram quantities of a range of terpene epoxides. As a proof of principle, the same protocol can also be applied to the epoxidation of biobased polymers as a means to post-functionalize these macromolecules and equip them with cross-linkable epoxy groups.

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Synthesis of Biorenewable Terpene Monomers Using Enzymatic Epoxidation under Heterogeneous Batch and Continuous Flow Conditions

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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