The ability of organisms and organic compounds to reduce metal ions and stabilize them
into nanoparticles (NPs) forms the basis of green synthesis. To date, synthesis of NPs from …

Nucleic acid is the main material for storing, copying, and transmitting genetic information.
Gene sequencing is of great significance in DNA damage research, gene therapy, mutation …

Suitable coordination between the new wave of nanostructured materials and catalyst of
interests play a critical role in developing nanobiocatalysts with new or improved …

During the past several years, abundant progresses has been made in the development of
immobilized oxidative enzymes with focus on finding new support materials, improving the …

In this paper, cloisite 30B (CL) was converted to tosylated cloisite (TCL) as new
heterofunctional support. Lipase from Candida rugosa was covalently immobilized on the …

In this paper, α-amylase from Bacillus subtilis was successfully immobilized on three
supports. First, α-amylase was immobilized on cloisite 30B via the adsorption method. Then …

This paper has focused on making suitable carriers for the immobilization of α-amylase from
Bacillus subtilis and lipase from Candida rugosa via adsorption on modified Na-sepiolite …

Nanobiocatalysts are one of the most promising biomaterials produced by synergistically
integrating advanced biotechnology and nanotechnology. These have a lot of potential to …

The strong catalytic performance, eco-friendly reaction systems, and selectivity of enzyme-
based biocatalysts are extremely interesting. Immobilization has been shown to be a good …

In this study, magnetic nanoparticles (MNPs) were combined with graphene oxide (GO) to
effectively improve the immobilization effect of lipase, and magnetic graphene oxide …