Lipases are the most widely used enzymes in biocatalysis, and the most utilized method for
enzyme immobilization is using hydrophobic supports at low ionic strength. This method …

Ecological and efficient alternatives to industrial processes have sparked interest for using
microorganisms and enzymes as biocatalysts. One of the difficulties is finding candidates …

This review investigates the development of bioproducts from biomass and their contribution
towards net zero carbon emissions. The promising future of biomasses conversion …

The development of new biocatalytic systems to replace the chemical catalysts, with suitable
characteristics in terms of efficiency, stability under high temperature reactions and in the …

A comprehensive study on lipase immobilization on ZIF-67, ZIF-8, and HKUST-1 and their
use in biodiesel production were performed. The highest adsorption capacity of 26.9 mg/g …

Biodiesel is a promising candidate for sustainable and renewable energy and extensive
research is being conducted worldwide to optimize its production process. The employed …

In diesel engines, waste cooking oil that obtained from the restaurant has been reused
efficiently by mixing alcohols for having it less viscous and dense, despite transesterification …

Lipases have significant biotechnological potential as catalysts in organic synthesis
reactions in a non-aqueous medium using simplified processes with high yields. Besides …

Production of biodiesel from lipids of Serratia sp. ISTD04 by lipase of Pseudomonas sp.
ISTPL3 immobilised on biocomposite materials to increase the enzyme stability and …

Generally wastewater such agricultural runoff is considered a nuisance; however, it could be
harnessed as a potential source of nutrients like nitrates and phosphates in integrated …