Issue 7, 2023
From the journal:

RSC Sustainability

3D printing for flow biocatalysis

Elena Gkantzou,a   Marie Weinhartbc  and  Selin Kara ORCID logo *ad  

* Corresponding authors

a Institute of Technical Chemistry, Leibniz University Hannover, 30167 Hannover, Germany
E-mail: selin.kara@iftc.uni-hannover.de

b Institute of Physical Chemistry and Electrochemistry, Leibniz Universität Hannover, 30167 Hannover, Germany

c Insitute of Chemistry and Biochemistry, Freie Universität Berlin, 14195 Berlin, Germany

d Biocatalysis and Bioprocessing Group, Department of Biological and Chemical Engineering, Aarhus University, 8000 Aarhus, Denmark
E-mail: selin.kara@bce.au.dk

Abstract

Additive manufacturing has evolved at such a level nowadays that it follows the sustainability pathways, from applied materials to processing costs. This is a fundamental reason that more and more scientific effort is devoted to incorporating this technology in different research fields. Implementation of 3D printing technology in flow biocatalysis can be addressed at every process design level, (i) either the reactor itself, (ii) the support material for biocatalyst confinement, or (iii) the peripheral accessories that can establish a highly controlled process. 3D printing is an attractive option for enabling the development of more efficient processes, along with facile performance optimization. Moreover, the 3D printing of a biocatalyst entrapped in a protecting scaffold offers an alternative immobilization approach with promising results for a cost-effective and green process design.

Graphical abstract: 3D printing for flow biocatalysis

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Article information

DOI
https://doi.org/10.1039/D3SU00155E
Article type
Tutorial Review
Submitted
17 5 2023
Accepted
08 8 2023
First published
08 8 2023
This article is Open Access
Creative Commons BY-NC license

RSC Sustain., 2023,1, 1672-1685

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3D printing for flow biocatalysis

E. Gkantzou, M. Weinhart and S. Kara, RSC Sustain., 2023, 1, 1672 DOI: 10.1039/D3SU00155E

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