Issue 5, 2023

A 3D printable synthetic hydrogel as an immobilization matrix for continuous synthesis with fungal peroxygenases

Abstract

Enzyme immobilization is the key to an intensified bioprocess that allows recycling of the heterogenized enzyme and/or continuous biocatalytic production. In this communication, we present a case study for enzyme immobilization in a novel, 3D printable synthetic hydrogel and its use in continuous oxidation reactions. Immobilization resulted in an average immobilization yield of 6.1% and continuous synthesis was run for 24 hours with a space–time yield of 3.1 × 10−2 g L−1 h−1.

Graphical abstract: A 3D printable synthetic hydrogel as an immobilization matrix for continuous synthesis with fungal peroxygenases

Supplementary files

Article information

Article type
Communication
Submitted
28 Jan 2023
Accepted
27 Mar 2023
First published
27 Mar 2023
This article is Open Access
Creative Commons BY-NC license

React. Chem. Eng., 2023,8, 984-988

A 3D printable synthetic hydrogel as an immobilization matrix for continuous synthesis with fungal peroxygenases

L. Meyer, D. Horváth, S. Vaupel, J. Meyer, M. Alcalde and S. Kara, React. Chem. Eng., 2023, 8, 984 DOI: 10.1039/D3RE00058C

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