Enzyme catalysis has been attracting increasing interest in the past twenty years.
Nevertheless, most reports concerning enzyme catalysis have been carried out using single …

Owing to their unique properties, hybrid organic–inorganic (HOI) materials with a variety of
spatial architectures have emerged as potential candidates for state-of-the-art applications …

In the past few years, organic–inorganic hybrid nanoflowers technology has been emerged
as an effective immobilization method. This method has motivated a considerable interest in …

Enzymes are nature's catalysts which are highly selective and efficient. Recently, metal
organic frameworks (MOFs) have captivated great attention as an attractive porous support …

Hybrid nanomaterials have recently emerged as a new interface of nanobiocatalysis,
serving as a host platform for enzyme immobilization. Enzyme immobilization in inorganic …

Due to poor operational stability and hard recovery of enzymes in industrial applications,
enzyme immobilization techniques have gained considerable development. However, there …

Many different micro and nano sized materials have been used for enzymes immobilization
in order to increase their catalytic activity and stability. Generally, immobilized enzymes with …

Enzyme immobilization has been extensively employed in research and industry to improve
enzyme stability and allow enzyme recycling. Broad ranges of chemicals and support …

Organic-inorganic hybrid nanoflowers (HNFs) are hierarchical flower-shaped
microstructures that are assembled by nanoscale petal-like nanosheets composed of both …

Different lipases have been immobilized on octyl agarose beads at 1 mg/g and at maximum
loading, via physical interfacial activation versus the octyl layer on the support. The stability …