Cellulolytic enzymes from Trichoderma reesei were covalently immobilized on
functionalized magnetic nanoparticles (MNPs). MNPs were synthesized using co …

Enzymatic hydrolysis is a key process for lignocellulosic biomass conversion; a way to
increase its efficiency and lessen the process cost is by targeting alternative strategies to …

There is an urgent need to replace petroleum-based fuels and chemicals with more
environmentally sustainable options since oil contributes to a net production of greenhouse …

Current cellulosic biomass hydrolysis is based on the one-time use of cellulases. Cellulases
immobilized on magnetic nanocarriers offer the advantages of magnetic separation and …

Cellulase from Trichoderma reesei was immobilized by covalent or non-covalent binding
onto magnetic hierarchical porous carbon (MHPC) nanomaterials. The immobilization yield …

Nanobiocatalysts, ie, enzymes immobilized on nanostructured supports, received
considerable attention because they are potential remedies to overcome shortcomings of …

The immobilization of cellulase enzymes for the conversion of lignocellulosic biomass into
sustainable biochemical products is essential for the stability and recovery of the enzymes …

Cellulosic enzymes, including cellulase, play an important role in biotechnological
processes in the fields of food, cosmetics, detergents, pulp, paper, and related industries …

Lignocellulosic complex is a potential feedstock for biofuel production due to their
abundance on Earth. Conversion of these feedstocks into biofuel is an important choice for …

Microbe-derived enzymes such as xylanases, cellulases and amylases, are efficient at
hydrolyzing plant biomass. Efforts to harness the functionalities of these enzymes towards …