Chitosan is a natural biopolymer with a modifiable structure and abundant function groups,
moreover, it can be processed into various shapes and sizes, making it suitable for various …

Electrospun nanofibrous membranes (ENFMs) have many superior advantages, such as
large specific surface area, high porosity, easy modification, good flexibility, and easy …

Nanochitin and nanochitosan (with random‐copolymer‐based multiscale architectures of
glucosamine and N‐acetylglucosamine units) have recently attracted immense attention for …

In the history of modern science, nanotechnology accomplished the most attraction by the
researchers as nanomaterials exhibit novel and significantly improved properties in term of …

Shell fish processing industry is very common in coastal areas. While processing, only the
meat is taken, the head and shells are discarded as waste. On an average, the sea food …

Due to microbial infections dramatically affect cell survival and increase the risk of implant
failure, scaffolds produced with antimicrobial materials are now much more likely to be …

Electrospinning is one of the most promising techniques for generating porous, nonwoven,
and submicron fiber-based membranes for various applications such as catalysis, sensing …

Electrospinning is an effective and versatile method to prepare continuous polymer
nanofibers and nonwovens that exhibit excellent properties such as high molecular …

Developing new polymer membranes with excellent thermal, mechanical, and chemical
stability has shown great potential for various environmental remediation applications such …

In the biomedical field, researchers are always looking for novel materials with improved
qualities that may be used in a variety of applications, including pharmaceutical …