In this research, a magnetic reusable nickel nanoparticle (NiNPs) supporting materials were
prepared for cellulase enzyme immobilization. The immobilized cellulase showed high …

Enzymes are proteins specialized in catalyzing biological reactions. However, factors such
as cost and operational limitations could limit their applications in the industrial sector. An …

The covalent binding of xylanase to silica-coated modified magnetite nanoparticles via
cyanuric chloride activation was investigated. The structure, size, and magnetic properties of …

Functionalized nanomaterials are promising candidates for enzyme immobilization to
develop efficient industrial biocatalysts with tailor-made catalytic properties. Cellulase, a …

The covalent binding of cellulase enzyme complex to magnetic (Fe3O4) nanoparticles via
carbodiimide activation was investigated. The size, structure, and morphology of the …

Immobilization of enzymes on matrices like iron oxide magnetic nanoparticles provides a
new technique against the stagnant conventional approaches for stabilization of enzymes …

Several researches have focused on the enzymatic pretreatment of lignocellulose biomass
to produce fermentable sugars that can lead to ethanol production thus facilitating pathways …

Synthesis of reusable biomimetic enzymes was generated with the goal of cost-effective
production of the enzyme for the application in bioconversion of lignocellulosic biomass. The …

The enzymatic conversion of lignocellulosic biomass into biofuels has been identified as an
excellent strategy to generate clean energy. However, the current process is cost-intensive …

Background Biocatalytic processes often require a full recycling of biocatalysts to optimize
economic benefits and minimize waste disposal. Immobilization of biocatalysts onto …