Molecular Decoration of Ceramic Supports for Highly Effective Enzyme Immobilization—Material Approach

A highly effective method was developed to functionalize ceramic supports (Al2O3 powders and membranes) using newly synthesized spacer molecules. The functionalized materials were subsequently utilized for Candida antarctica lipase B enzyme immobilization. The objective is to systematically evaluate...

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Bibliographic Details
Published in:Materials
Main Authors: Joanna Kujawa, Marta Głodek, Izabela Koter, Borys Ośmiałowski, Katarzyna Knozowska, Samer Al-Gharabli, Ludovic Dumée, Wojciech Kujawski
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
surface modification
organic spacer
enzyme immobilization
Candida antarctica lipase B
ceramic membranes
alumina oxide
Antarc*
Antarctica
Online Access:https://doi.org/10.3390/ma14010201
Description
Summary:A highly effective method was developed to functionalize ceramic supports (Al2O3 powders and membranes) using newly synthesized spacer molecules. The functionalized materials were subsequently utilized for Candida antarctica lipase B enzyme immobilization. The objective is to systematically evaluate the impact of various spacer molecules grafted onto the alumina materials will affect both the immobilization of the enzymes and specific material surface properties, critical to enzymatic reactors performance. The enzyme loading was significantly improved for the supports modified with shorter spacer molecules, which possessed higher grafting effectiveness on the order of 90%. The specific enzyme activity was found to be much higher for samples functionalized with longer modifiers yielding excellent enantioselectivity >97%. However, the enantiomeric ratio of the immobilized lipase was slightly lower in the case of shorter spacer molecules.

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