Thesis etd-03012022-101954 |
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Thesis type
Tesi di dottorato di ricerca
Author
PARODI, ELISABETTA
URN
etd-03012022-101954
Thesis title
Biocatalysis: a green approach to high added value chemicals
Academic discipline
CHIM/06
Course of study
SCIENZE CHIMICHE E DEI MATERIALI
Supervisors
tutor Dott.ssa Petri, Antonella
supervisore Dott. Piccolo, Oreste
supervisore Dott. Piccolo, Oreste
Keywords
- Biocatalysys
- circular economy
- enzyme
- green chemistry
- immobilisation
Graduation session start date
08/04/2022
Availability
Withheld
Release date
08/04/2062
Summary
The main goal of this Ph-D. thesis was to investigate the application of biocatalysis from the point of view of both process and product sustainability.
The use of two enzyme-catalysed processes for the production of enantiomerically pure compounds for pharmaceutical application was investigated (Chapter 2 and 3).
In the first case (Chapter 2) the research aimed to immobilise two commercial alcohol dehydrogenases in order to obtain better performing enzymes and to evaluate their reusability for minimizing the costs of the process.
In the second one, the research goal was to explore the efficiency of new (R)-selective ω-transaminases for the synthesis of chiral primary amines, which are important intermediate in the synthesis of active pharmaceutical ingredients (APIs).
Finally, the possibility to combine aspects of fine chemistry and bioeconomy through the use of green processes and enzyme-assisted transformation of bioderived compounds was investigated (Chapter 4).
In particular, the potential technological applications of the main components of a class of biowastes, the oilseed pressed cakes, was assessed.
The use of two enzyme-catalysed processes for the production of enantiomerically pure compounds for pharmaceutical application was investigated (Chapter 2 and 3).
In the first case (Chapter 2) the research aimed to immobilise two commercial alcohol dehydrogenases in order to obtain better performing enzymes and to evaluate their reusability for minimizing the costs of the process.
In the second one, the research goal was to explore the efficiency of new (R)-selective ω-transaminases for the synthesis of chiral primary amines, which are important intermediate in the synthesis of active pharmaceutical ingredients (APIs).
Finally, the possibility to combine aspects of fine chemistry and bioeconomy through the use of green processes and enzyme-assisted transformation of bioderived compounds was investigated (Chapter 4).
In particular, the potential technological applications of the main components of a class of biowastes, the oilseed pressed cakes, was assessed.
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