Electrospinning is a versatile and viable technique for generating ultrathin fibers.
Remarkable progress has been made with regard to the development of electrospinning …

Electrospinning is widely accepted as a technique for the fabrication of nanofibrous three-
dimensional (3D) scaffolds which mimic extracellular matrix (ECM) microenvironment for …

Tissue engineering uses a combination of cell biology, chemistry, and biomaterials to
fabricate three dimensional (3D) tissues that mimic the architecture of extracellular matrix …

Since the emergence of regenerative medicine and tissue engineering more than half a
century ago, one obstacle has persisted: the in vitro creation of large-scale vascular tissue (> …

Tissue engineering is an interdisciplinary field that integrates medical, biological, and
engineering expertise to restore or regenerate the functionality of healthy tissues and …

Due to the prevalence of cardiovascular diseases, there is a large need for small diameter
vascular grafts that cannot be fulfilled using autologous vessels. Although medium to large …

Vascular diseases are the most prevalent cause of ischemic necrosis of tissue and organ,
which even result in dysfunction and death. Vascular regeneration or artificial vascular graft …

Electrospinning is the simplest and most widely used technology for producing ultra-thin
fibers. During electrospinning, the high voltage causes a thin jet to be launched from the …

Electrospinning as a versatile, simple, and cost-effective method to engineer a variety of
micro or nanofibrous materials, has contributed to significant developments in the …

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