Polycaprolactone (PCL) is a bioresorbable and biocompatible polymer that has been widely
used in long-term implants and controlled drug release applications. However, when it …

In order to design scaffolds for tissue engineering with proper architectures, organization
and properties, a variety of materials and technologies are being developed. In addition to …

Low-density 3D ultrafine fiber assemblies obtained from direct electrospinning enable
promising applications in sound absorption fields but are often hindered by their poor …

Electrospinning has been widely applied for tissue engineering due to its versatility of
fabricating extracellular matrix (ECM) mimicking fibrillar scaffolds. Yet there are still …

There is a growing need to develop strategies capable of engineering the anisotropic
cartilaginous fibrous network in vitro and consequently overcome the anatomical and …

The potential of electrospinning process to fabricate ultrafine fibers as building blocks for
tissue engineering scaffolds is well recognized. The scaffold construct produced by …

Mechanical stretch under both physiological (breathing) and pathophysiological (ventilator‐
induced) conditions is known to significantly impact all cellular compartments in the lung …

Chitosan exhibiting excellent functional properties was found to be potential in a wide
variety of industrial and biomedical applications. The lack of biological activities and the …

Core-shell polycaprolactone/polycaprolactone (PCL/PCL) and polycaprolactone/polyvinyl
acetate (PCL/PVAc) electrospun fibers loaded with synthesized nanohydroxyapatite (HAn) …

A novel strategy to prepare thick nanofibrous scaffolds with controlled pore size and graded
porosity by electrospinning was developed. Taking advantage of the self-assembling …