As a low cost, biocompatible, and bioresorbable synthetic polymer, poly (ɛ-
caprolactone)(PCL) is widely used for different biomedical applications including drug …

In recent years, with advancements in bone tissue regeneration and engineering
technologies, carbon-based nanomaterials (CNMs) have progressively demonstrated …

The incorporation of carbon nanotubes (CNT) and hydroxyapatite (HA) into biopolymer as
bone scaffold is expected to combine the excellent mechanical properties of CNT and …

Prediction of the diameter of a nanofiber is very difficult, owing to complexity of the
interactions of the parameters which have an impact on the diameter and the fact that there …

The helical structures possess unique physical and chemical properties, such as
superelasticity, high specific strength, chirality, and electromagnetic cross-polarization …

Fiber diameter plays an important role in the properties of electrospinning of nanofibers.
However, one major problem is the lack of a comprehensive method that can link processing …

The efficient and economic growth of high-purity carbon nanotube (CNT) arrays remains a
great challenge due to the synthetic complexity and difficulty of high-precision control …

Abstract Nano-hydroxylapatite (nano-HAP)/polycaprolactone (PCL) composite scaffold is
proved to possess great potential for bone tissue engineering application since the …

The chemical resemblance of HA to natural bone has led to a widespread research
approach to use synthetic HA as a bone substitute and replacement in biomedical …

For the first time, a biohybrid nanofibrous wound dressing is developed via green
electrospinning of a blend solution of bovine serum albumin (BSA)(1 and 3 wt%) and …