In recent years, there have been increasingly rapid advances of using bioactive materials in
tissue engineering applications. Bioactive materials constitute many different structures …

Promoting bone regeneration and repairing defects are urgent and critical challenges in
orthopedic clinical practice. Research on bone substitute biomaterials is essential for …

Biodegradable polymers have met with an increasing demand in medical usage over the
last decades. One of such polymers is poly (ε-caprolactone)(PCL), which is a polyester that …

Over the last few years, biopolymers have attracted great interest in tissue engineering and
regenerative medicine due to the great diversity of their chemical, mechanical, and physical …

Chitosan is the most abundant natural biopolymer, after cellulose. It is mainly derived from
the fungi, shrimp's shells, and exoskeleton of crustaceans, through the deacetylation of …

From 20th century, chitosan, a natural polysaccharide, has received much attention for use
in biomedical applications thanks to its remarkable properties, such as biodegradability …

In this study, a water-based aminoethylpiperazine-polyamide (AEPPA) is synthesized and its
water-based sizing agent is prepared to improve the interfacial properties of carbon fiber …

Carbohydrate used in biomedical applications is influenced by numerous factors. One of the
most appealing characteristic of carbohydrates is their ability to reproduce from natural …

Chitosan (CS) electrospun nanofiber (ENF) membranes were modified with fucoidan (Fu)
and CuS NPs through polyelectrolyte complexation and genipin (GP)-involved cross-linking …

Electrospinning has emerged as a versatile and accessible technology for fabricating
polymer fibers, particularly for biological applications. Natural polymers or biopolymers …