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 …

Background Previous research focused on pretreatment of biomass, production of
fermentable sugars and their consumption to produce ethanol. The main goal of the work …

The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …

In the present study, Trichoderma reesei cellulase was covalently immobilized on chitosan-
coated magnetic nanoparticles using glutaraldehyde as a coupling agent. The average …

Devising and consolidating cost-effective and greener technologies for sustainable energy
production pertain to some of the most pressing needs of the present times. Bioconversion of …

The catalytic transformation (hydrolysis) of complex lignocellulosic polysaccharides into
fermentable monosaccharides is crucial for producing bioethanol. Hydrolysis of various …

Production of bioethanol from various lignocellulosic biomass through enzymatic hydrolysis
is considered as a promising approach to fulfill the global energy demand. In addition to …

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 …

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

Catalytic conversion (hydrolysis) of carbohydrate polymers present in the lignocellulosic
biomass into fermentable sugars is a key step in the production of bioethanol. Although, acid …