Electrospinning has recently been developed as an efficient technique to develop polymeric
nanofibres. Various synthetic and natural biodegradable polymers have been electrospun …

Electrospinning has emerged to be a simple, elegant and scalable technique to fabricate
polymeric nanofibers. Pure polymers as well as blends and composites of both natural and …

Polymeric nanofibers have potential as tissue engineering scaffolds, as they mimic the
nanoscale properties and structural characteristics of native extracellular matrix (ECM) …

Electrospinning has attracted tremendous interest in the research community as a simple
and versatile technique to produce synthetic polymeric ultrafine fibres with diameters …

Electrospinning is an enabling technology that can architecturally (in terms of geometry,
morphology or topography) and biochemically fabricate engineered cellular scaffolds that …

While electrospinning had seen intermittent use in the textile industry from the early
twentieth century, it took the explosion of the field of tissue engineering, and its pursuit of …

Nanofibers exist widely in human tissue with different patterns. Electrospinning
nanotechnology has recently gained a new impetus due to the introduction of the concept of …

Interest in electrospinning has recently escalated due to the ability to produce materials with
nanoscale properties. Electrospun fibers have been investigated as promising tissue …

Electrospinning, an electrostatic fiber fabrication method, has emerged as an invincible
technique for the production of micro-to nanofibers-based polymeric scaffolds. It has gained …

Tissue engineering (TE) is an emerging field of study that incorporates the principles of
biology, medicine, and engineering for designing biological substitutes to maintain, restore …