Merging nanofibers with current wound care practices is proving revolutionary. Electrospun nanofibers have a vast specific ...

The fibers, made from white flour and formic acid, average just 372 nanometers in diameter and might find use in biodegradable bandages.

Researchers created concrete reinforced with nanocrystals that is 30 percent stronger than traditional cement.

Demand for organic cosmetics enhanced by nanofibers is growing as consumers become more concerned with product quality.

A UCL study reveals the creation of 372-nanometer nanofibers from flour, offering eco-friendly solutions for medical ...

To create the patch, researchers used electrospinning, which is a method where high voltage is applied to a polymer solution ...

An additional component ensures that the individual peptide molecules aggregate into nanofibers once they are inside the tumor cells. In this form, the fiber surfaces have many copper-binding ...

A Purdue University researcher has increased the strength and resilience of cement by integrating patent-pending chemically ...

Deriving starch nanofibers directly from plants is a process that is both energy and water intensive. A team led by chemist ...

The fibers, partly made from flour, are so thin that scientists can’t see them with conventional cameras or microscopes.

Although unusable in cooking, this technological feat opens the way to exciting medical and scientific applications.