Add to ORKGImmobilized lipase B from Candida antarctica (N435) was investigated as a potential biocatalyst to generate silicone-based chiral polymers from monomers derived from the enzymatic dihydroxylation of bromobenzene. Several conditions and parameters have been investigated for this purpose and lipase transesterification preference to each of the free secondary alcohols in the chiral monomers was documented. The N435 was challenged with a series of substrates where the free alcohol moieties were systematically protected in order to study the substrate preference(s) for the transesterification reactions
Schmidt S, Buechsenschuetz HC, Scherkus C, Liese A, Gröger H, Bornscheuer UT. Biocatalytic access to...
Publisher's version (útgefin grein)Immobilized enzymatic catalysts are widely used in the chemical a...
Enzymes are attractive catalysts in organic synthesis since they are efficient, selective and enviro...
An approach employing two enzymes—toluene dioxygenase and immobilized lipase B from Candida antarcti...
An approach employing two enzymes—toluene dioxygenase and immobilized lipase B from Candida antarcti...
Polyesters are known biodegradable materials that are frequently used for biomedical applications th...
Biotransformations are processes, in which chemical reactions are catalyzed by isolated enzymes or w...
The search for alternatives to oil-based monomers has sparked interest for scientists to focus on th...
The search for alternatives to oil-based monomers has sparked interest for scientists to focus on th...
Microbial lipases are highly appreciated as biocatalysts due to their peculiar characteristics such ...
The use of enzymes as catalysts in organic synthesis constitutes an attractive alternative to conven...
The sustainable synthesis of polymers is a field with growing interest due to the need of modern soc...
The employment of enzymes and whole cells has been important in many industries for centuries. Howev...
The employment of enzymes and whole cells has been important in many industries for centuries. Howev...
The objective of this research was to investigate the enzyme-catalyzed functionalization of polymers...
Schmidt S, Buechsenschuetz HC, Scherkus C, Liese A, Gröger H, Bornscheuer UT. Biocatalytic access to...
Publisher's version (útgefin grein)Immobilized enzymatic catalysts are widely used in the chemical a...
Enzymes are attractive catalysts in organic synthesis since they are efficient, selective and enviro...
An approach employing two enzymes—toluene dioxygenase and immobilized lipase B from Candida antarcti...
An approach employing two enzymes—toluene dioxygenase and immobilized lipase B from Candida antarcti...
Polyesters are known biodegradable materials that are frequently used for biomedical applications th...
Biotransformations are processes, in which chemical reactions are catalyzed by isolated enzymes or w...
The search for alternatives to oil-based monomers has sparked interest for scientists to focus on th...
The search for alternatives to oil-based monomers has sparked interest for scientists to focus on th...
Microbial lipases are highly appreciated as biocatalysts due to their peculiar characteristics such ...
The use of enzymes as catalysts in organic synthesis constitutes an attractive alternative to conven...
The sustainable synthesis of polymers is a field with growing interest due to the need of modern soc...
The employment of enzymes and whole cells has been important in many industries for centuries. Howev...
The employment of enzymes and whole cells has been important in many industries for centuries. Howev...
The objective of this research was to investigate the enzyme-catalyzed functionalization of polymers...
Schmidt S, Buechsenschuetz HC, Scherkus C, Liese A, Gröger H, Bornscheuer UT. Biocatalytic access to...
Publisher's version (útgefin grein)Immobilized enzymatic catalysts are widely used in the chemical a...
Enzymes are attractive catalysts in organic synthesis since they are efficient, selective and enviro...