Collagen is the most abundant protein in humans and animals, comprising of one third of the
total proteins that accounts for three quarters of the dry weight skin in humans. Collagen …

In recent years, biopolymers are getting wide attention with the perspective of developing
high‐performance biocomposites with low environmental impact owing to their unique and …

Efficient design for bone tissue engineering requires an understanding of the appropriate
selection of biomimetic natural or synthetic materials and scalable fabrication technologies …

In this study, solution blow spinning (SBS) was used to rapidly develop gelatin/zein/
polyurethane (PU) complex nanofibers for application in food antimicrobial packaging. The …

Electrospinning, as one of the most common methodologies in nanofibers production,
involves applying high voltages to a polymeric solution that is entrapped in a syringe to …

Current strategies of regenerative medicine are focused on the restoration of pathologically
altered tissue architecture by transplantation of cells in combination with supportive scaffolds …

The tissue engineering scaffolds requires efficient combination of materials, appropriate
method of preparation, and precise characterization of final product. In this study, the optimal …

In this study, we synthesized and incorporated chitosan nanoparticles (Cs) into polyhydroxy
butyrate (PHB) electrospun scaffolds for cartilage tissue engineering. The Cs nanoparticles …

The choice of material types for tissue engineering scaffolds and the design of methods are
contributive in yielding the proper result. In this study, 1–5% wt. Alumina nanowires are …

Polymeric nanofibers have potential as tissue engineering scaffolds, as they mimic the
nanoscale properties and structural characteristics of native extracellular matrix (ECM) …