Bacterial biofilms are complex microbial communities encased in extracellular polymeric
substances. Their formation is a multi-step process. Biofilms are a significant problem in …

Enzymes are highly efficient biocatalysts and widely employed in biotechnological sectors.
However, lack of (re)-purification and efficient recovery of enzymes are among the most …

Increase in human population, rapid industrialization, excessive utilization of fossil fuel
utilization and anthropogenic activities have caused serious threats to the environment in …

Population increase and industrialization has resulted in high energy demand and
consumptions, and presently, fossil fuels are the major source of staple energy, supplying …

Enzyme immobilization is an established method for the enhancement of enzyme stability
and reusability, two factors that are of great importance for industrial biocatalytic …

In present study, Aspergillus niger cellulase was immobilized onto functionalized
multiwalled carbon nanotubes (MWCNTs) via carbodiimide coupling. MWCNTs offer unique …

Biocatalysts provide a major advantage to bio-based economy over chemical catalysts by
catalyzing various useful transformations in an environment friendly manner along with other …

Sustainable generation of biofuels is gaining substantial attraction as an alternative for
substitution of petrochemical-derived products, which allows to mitigate common problems …

In recent times, nanoparticles (NPs) have found increasing interest owing to their size, large
surface areas, distinctive structures, and unique properties, making them suitable for various …

Among the industrial enzymes, cellulase plays a central role in biotechnology and
agricultural applications such as foods, chemicals, detergents, cosmetics, pulp, and paper …