Various tissues and organs in the human body, such as nerves, heart, bones, and skin, rely on bioelectrical signals to maintain function and support ...

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 ...

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 ...

The gelatin nanofibers are also electrospun using acidic organic solvents (for example, acetic acid-ethyl acetate-H 2 O 19, 21 and formic acid-ethanol-H 2 O 20). Fluorinated alcohols and acidic ...

Electrospinning, a groundbreaking technique in nanotechnology, has opened new horizons by enabling the creation of innovative materials with unique properties. In this interview, Dr. Ramakrishna ...

In a groundbreaking advancement that could reshape the landscape of precise medicine, researchers from the Beijing Institute of Technology and Rutgers University have unveiled a series of innovative ...

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 ...

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 ...

Bob Zwaska, a scientist at the UChicago-affiliated Fermi National Accelerator Laboratory, was watching a contestant on the cooking show Chopped spin sugar for their dessert when he realized the same ...