Lipases are efficient biocatalysts with numerous applications in different industrial sectors,
such as pharmaceutical, food, and fine chemistry industries. Enzyme immobilization further …

To achieve an efficient and cost-effective conversion from waste cooking oil (WCO) to
biodiesel, a facile one-pot co-immobilization of Aspergillus oryzae lipase (AOL) and …

Flow biocatalysis is a key enabling technology that is increasingly being applied to a wide
array of reactions with the aim of achieving process intensification, better control of …

Exploiting highly active and methanol-resistant lipase is of great significance for biodiesel
production. A semi-rational directed evolution method combined with N-glycosylation is …

The modification of triglycerides (TGs) via acidolysis with fatty acids (FAs) was investigated
using three commercial lipases activated via hydration–aggregation pretreatment. Lipase …

With the development of enzymatic routes toward biodiesel production, the process can be
concerned in a commercial viewpoint. The main bottleneck is the high cost of lipases. In this …

The present work reports an optimization of the synthesis of MLM-type (medium, long,
medium) structured lipids (SL) through an acidolysis reaction of grape seed oil with capric …

Eversa® Transform 2.0 lipase used as biocatalyst to biodiesel (fatty acid methyl esters–
FAME) synthesis has been the target of interesting studies due to its thermostability and cost …

Lipase-catalyzed transesterification is a promising and sustainable approach to producing
biodiesel. To achieve highly efficient conversion of heterogeneous oils, combining the …

Four commercial immobilized lipases biocatalysts have been submitted to modifications with
different metal (zinc, cobalt or copper) phosphates to check the effects of this modification on …