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

Functional polymeric micro-/nanofibers have emerged as promising materials for the
construction of structures potentially useful in biomedical fields. Among all kinds of …

Exploring innovative solutions to improve the healthcare of the aging and diseased
population continues to be a global challenge. Among a number of strategies toward this …

The development of biodegradable and antibacterial hemostatic materials with high blood
absorption to halt the internal hemorrhage of deep noncompressible wounds remains a …

There is a specialized niche for the electrohydrodynamic jetting of melts, from biomedical
products to filtration and soft matter applications. The next frontier includes optics …

Electrospinning is a simple route to generate polymer-based fibres with diameters on the
nano-to micron-scale. It has been very widely explored in biomedical science for …

Tissue engineering and regenerative medicine have emerged as innovative approaches to
enhance clinical outcomes by addressing tissue lesions and degenerations that can …

Conductivity and alignment of scaffolds are two primary factors influencing the efficacy of
nerve repair. Herein, conductive composite fibers composed of poly (ɛ‐caprolactone)(PCL) …

Current clinical treatment strategies for the bypassing of small diameter (< 6 mm) blood
vessels in the management of cardiovascular disease frequently fail due to a lack of suitable …

Electrospinning forms fibers from either an electrically charged polymer solution or polymer
melt. Over the past decades, it has become a simple and versatile method for nanofiber …