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Covalent immobilization of glucose oxidase on amino MOFs via post-synthetic modification

Journal Article (2016)
Author(s)

C.G. Tudisco (University of Catania, TU Delft - OLD ChemE/Organic Materials and Interfaces)

G. Zolubas (TU Delft - OLD ChemE/Organic Materials and Interfaces)

B. Seoane de la Cuesta (TU Delft - ChemE/Catalysis Engineering)

H. Zafarani (TU Delft - OLD ChemE/Organic Materials and Interfaces)

M. Kazemzad Asiabi (Materials and Energy Research Center, TU Delft - OLD ChemE/Organic Materials and Interfaces)

J. Gascon Sabate (TU Delft - ChemE/Catalysis Engineering)

P.L. Hagedoorn (TU Delft - BT/Biocatalysis)

L. Rassaei (TU Delft - OLD ChemE/Organic Materials and Interfaces)

ChemE/Catalysis Engineering
Copyright
© 2016 C.G. Tudisco, G. Zolubas, Beatriz Seoane, H. Zafarani, M. Kazemzad Asiabi, Jorge Gascon, P.L. Hagedoorn, L. Rassaei
DOI related publication
https://doi.org/10.1039/c6ra19976c
More Info
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Publication Year
2016
Language
English
Copyright
© 2016 C.G. Tudisco, G. Zolubas, Beatriz Seoane, H. Zafarani, M. Kazemzad Asiabi, Jorge Gascon, P.L. Hagedoorn, L. Rassaei
ChemE/Catalysis Engineering
Issue number
109
Volume number
6
Pages (from-to)
108051-108055
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Abstract

The post-synthetic modification (PSM) of two amino-MOFs with glucose oxidase is reported in this study. The multi-step approach preserved the MOFs' structure and allowed the production of enzyme-functionalized MOFs (MOFs@GOx), which retained the enzymatic activity and showed selective properties for glucose.