Electrospinning process parameters optimization for biofunctional curcumin/gelatin nanofibers

Abstract: Electrospinning has received wide attention for the preparation of uniform diameter nanofibers (ranging from 5 nm to several hundred nanometers) in films with random as well as aligned fashions of the fibers of various materials for use in biomedical applications. Electrospinning research has provided an in-depth understanding of the preparation of light weight, ultrathin, porous, biofunctional curcumin/gelatin nanofibers having applications in wound dressing, drug release, tissue engineering, etc. In the firs… Show more

“…The next study 88 demonstrates thin, porous, and lightweight curcumin-loaded gelatin nanofibers for potential wound healing and other applications. The authors analyzed the effect of various technological factors on electrospinning stability and fiber morphology in detail.…”

Electrospun curcumin-loaded polymer nanofibers: solution recipes, process parameters, properties, and biological activities

“…The next study 88 demonstrates thin, porous, and lightweight curcumin-loaded gelatin nanofibers for potential wound healing and other applications. The authors analyzed the effect of various technological factors on electrospinning stability and fiber morphology in detail.…”

Electrospun curcumin-loaded polymer nanofibers: solution recipes, process parameters, properties, and biological activities

“…Nand Jee Kanu et al have fabricated an ultra-thin curcumin/gelatin nanofiber of 181 ± 66 nm for sustained release of curcumin and tissue engineering applications. 59…”

Functionalization of electrospun nanofiber for biomedical application

“…In addition to molecular orientation, physical alignment of electrospun fibers contributes to the production of high strength/high toughness fiber reinforced composites [12]. Among the many ways to produce aligned fibers by using an electrospinning technique, drum collection and rotating disk collectors are the two most popular designs, as shown in Figure 5a,b [65,[107][108][109][110][111].…”

Synthesis and Characterization of Nanomaterials