Energy shortage and environmental deterioration have become two intractable global
issues with the eruptive evolution of industry and technology. Porous-engineered …

Electrospun porous nanofibers have gained a lot of interest recently in various fields
because of their adjustable porous structure, high specific surface area, and large number of …

Electrospun porous nanofibers have large specific surface areas and abundant active
centers, which can effectively improve the properties of nanofibers. In the field of …

One of the emerging technologies of the recent times harboring nanotechnology to fabricate
nanofibers for various biomedical and environmental applications are electrospinning …

In this paper we review the literature on electrospinning of porous fibers of micron and
nanoscale diameters. Selection of an appropriate polymer-solvent system can yield porous …

In recent years, electrospun nanofibers have attracted extensive attention due to their large
specific surface area, high porosity, and controllable shape. Among the many applications of …

Engineering the secondary surface morphology of fibers (fibers without smooth surface and
solid interior) has been attracting significant awareness in various areas and applications …

Earlier reports of fabricating 3D porous PCL scaffolds for tissue engineering applications
were overshadowed by several limitations such as additional molds cost, relatively low …

Electrospun fibers have received significant interests for various application areas such as
filtration, composites and biomedical products due to their large surface area, good …

Tissue damage related to bone and cartilage is a common clinical disease. Cartilage tissue
has no blood vessels and nerves. The limited cell migration ability results in low …