The most widely used and researched method of fabricating nanofibers is electrospinning (ES), due to its high efficiency, adaptability and cost-effectiveness. Nanofibers are fibrous structures with ...

That ancient mariner was onto something when he said “water, water everywhere, nor any drop to drink” – the vast majority of water on Earth is undrinkable. Desalination could be a vital technology to ...

The fourth in a highly successful series of international conferences dedicated to the science of electrospinning and the science supported by electrospinning. All disciplines are welcome. The ...

The electrospinning technique creates fibers ranging in size from 100 nm to a few microns. This one-of-a-kind process has the advantages of simple production machinery, low spinning costs, a diverse ...

Combining these two twins-tech, electrospinning and electrospraying, to fabricate novel nanomaterials is an urgent area of research for materials scientists and biomedical engineers, according to a ...

Redox-active but highly durable nitroxide radicals, that is, 2,2,6,6-tetramethylpiperidinyl-4-oxy (TEMPO), enabled direct electrospinning of radical-containing polymers without additional processing ...

Electrospinning operates on a straightforward principle involving a high-voltage electric field applied between a droplet of polymer solution (or melt) held by a syringe and a grounded collector. The ...

No, you can't eat the world's thinnest spaghetti. It's 200 times thinner than a human hair, which means you'd have a hard time spotting it on a plate and an even harder time cooking it. So why make it ...

Precise medicine, aimed at tailoring healthcare to individual patients by considering their genetic, environmental, and lifestyle differences, has long sought more effective ways to integrate advanced ...

Nanofibers have gained significant attention for different applications, such as barrier fabrics and high-efficiency filters. In biomedical applications, nanofibers have been used as drug delivery ...