The excessive demand for fossil fuels has caused severe environmental impacts, such as
GHG-related effects and widespread pollution. Firstly, it is essential to identify the main …

Immobilized enzymes are widely used in the industries for various biochemical reactions in
order to gain the benefits of higher stability and reusability. Emerging trends of …

Developing highly efficient biocatalyst is a pertinent requirement for biofuels production, in
particularly biodiesel/bioethanol. To circumvent the minimal efficiency of conventionally …

The use of enzymes immobilized on nanomagnetic supports has produced surprising results
in catalysis, mainly due to the increase in surface area and the potential for recovery and …

Lipase is a highly utilized enzyme that holds significant value in various biotechnological
and industrial applications, such as the food, paper, and oleochemical sectors, as well as in …

A green strategy that significantly accelerates the biodegradation rate of cellulose acetate
(CA) by triggering deacetylation was demonstrated. Lipase isolated from Candida rugosa …

In this study, the flexible nanoporous MIL-53 (Fe)(MIL= Materials of Institute Lavoisier) was
used as an efficient support for in-situ and covalent binding immobilization of Humicola …

Alginate lyase is an enzyme that catalyses the hydrolysis of alginate into alginate
oligoalginates. To enhance enzyme stability and recovery, a facile strategy for alginate lyase …

Immobilization of glycosidases for ginsenoside CK production is a promising method to
improve industrial production. Magnetite (Fe 3 O 4) nanoparticles encapsulated with …

The textile industry includes processes such as the design, manufacture, and distribution of
textiles, fabrics, and clothing, all of which result in the production of large amounts of waste …