Natural bone constitutes a complex and organized structure of organic and inorganic
components with limited ability to regenerate and restore injured tissues, especially in large …

Electrospinning is a fast emerging technique for producing ultrafine fibers by utilizing
electrostatic repulsive forces. The technique has gathered much attention due to the …

Nanocomposites have emerged in the last two decades as an efficient strategy to upgrade
the structural and functional properties of synthetic polymers. Aliphatic polyesters as …

Electrospun (bio) polymeric fibers have attracted widespread interest as functional materials
with suitable morphology and properties for their use as tissue engineering scaffolds and/or …

For several decades, composites made of polylactic acid-calcium phosphates (PLA-CaP)
and polylactic acid-co-glycolic acid-calcium phosphates (PLGA-CaP) have seen widespread …

Antibacterial nanomaterials have attracted great interest in recent years, especially with an
increase in antibiotic resistance of microbial organisms. However, deleterious properties …

The fabrication of a suitable scaffold material is one of the major challenges for bone tissue
engineering. Poly (lactic acid)(PLA) is one of the most favorable matrix materials in bone …

Polylactide (PLA) is the oldest and potentially one of the most interesting and useful
biodegradable man-made polymers because of its renewable origin, controlled synthesis …

The present study aimed to evaluate the efficacy of cellulose acetate/gelatin/
nanohydroxyapatite (CA/Gel/nHA) nanocomposite mats as the wound dressing. The …

Nanofibers are ideally suited to form a scaffold where multi-functional components can be
hierarchically organized. Development in electrospinning in terms of fiber construction and …