Add to ORKGThe application of biocatalysis is a promising field related to new technologies for organic synthesis. The development of immobilization techniques is very important due to the multiple or repetitive use of a single batch of enzymes and the ability to stop the reaction rapidly, at any stage, by removing the enzymes. In most cases, after immobilization, enzymes and microorganisms maintain or even increase their activity and stability. This work presents an overview of the common methods for lipase immobilization in polymers and applications of these systems to obtain compounds of synthetic interest
In order to construct a new type of immobilized enzyme catalytic system, poly (glycidyl methacrylate...
WOS: 000179722300002The biotechnological applications of lipases as biocatalysts for esterification,...
Lipases are the most widely used enzymes in biocatalysis, and the most utilized method for enzyme im...
Biotechnology also holds tremendous opportunities for realizing functional polymeric materials. Bioc...
A simple and effective method of lipase immobilization is described. Lipase from Candida rugosa was ...
Lipases (triacylglycerol acyl hydrolases, E.C. 3.1.1.3) are ubiquitous enzymes that catalyze numerou...
Different methods of preparing lipases for use in organic media are critically reviewed. Solid lipas...
The use of immobilized enzymes as biocatalysts in organic syntheses is of increasing interest. Immob...
Biotechnology also holds tremendous opportunities for realizing functional polymeric materials. Bioc...
Abstract— The current preference of costumers for natural and healthy products is increasing the emp...
Immobilization of enzymes is an important field of study as the reusable heterogeneous biocatalysts ...
Enzymes are the highly efficient biocatalyst in modern biotechnological industries. Due to the fragi...
To improve enzyme stability, the immobilization process is often applied. The choice of a support on...
This work reviews the stripping off, role of water molecules in activity, and flexibility of immobil...
peer reviewedLipases are able to catalyse the hydrolysis of glyceridic esters in aqueous media and t...
In order to construct a new type of immobilized enzyme catalytic system, poly (glycidyl methacrylate...
WOS: 000179722300002The biotechnological applications of lipases as biocatalysts for esterification,...
Lipases are the most widely used enzymes in biocatalysis, and the most utilized method for enzyme im...
Biotechnology also holds tremendous opportunities for realizing functional polymeric materials. Bioc...
A simple and effective method of lipase immobilization is described. Lipase from Candida rugosa was ...
Lipases (triacylglycerol acyl hydrolases, E.C. 3.1.1.3) are ubiquitous enzymes that catalyze numerou...
Different methods of preparing lipases for use in organic media are critically reviewed. Solid lipas...
The use of immobilized enzymes as biocatalysts in organic syntheses is of increasing interest. Immob...
Biotechnology also holds tremendous opportunities for realizing functional polymeric materials. Bioc...
Abstract— The current preference of costumers for natural and healthy products is increasing the emp...
Immobilization of enzymes is an important field of study as the reusable heterogeneous biocatalysts ...
Enzymes are the highly efficient biocatalyst in modern biotechnological industries. Due to the fragi...
To improve enzyme stability, the immobilization process is often applied. The choice of a support on...
This work reviews the stripping off, role of water molecules in activity, and flexibility of immobil...
peer reviewedLipases are able to catalyse the hydrolysis of glyceridic esters in aqueous media and t...
In order to construct a new type of immobilized enzyme catalytic system, poly (glycidyl methacrylate...
WOS: 000179722300002The biotechnological applications of lipases as biocatalysts for esterification,...
Lipases are the most widely used enzymes in biocatalysis, and the most utilized method for enzyme im...