«These findings show the great promise of soy -
based nanofibers for wound healing,» said Seungkuk Ahn, first author of the paper and a graduate student in the Disease for Biophysics Group.
Another recent paper published in Advanced Healthcare Materials highlighted a soy -
based nanofiber which also accelerates wound healing.
Not exact matches
Shuguang Zhang of MIT, who also invented a solar cell
based on spinach, developed the
nanofiber scaffold solution in 1990.
This up - close electron microscope view shows the
nanofiber and polymer network that composes a new kind of synthetic cartilage and gives this water -
based material its strength.
The researchers created a new gel,
based on small molecules which self - assemble into
nanofibers which could interact with a variety of anti-inflammatory, painkiller drugs, including iburofen and naproxen.
Their new catalyst possesses the structure of
nanofiber -
based perovskite materials and exhibits excellent electrochemical performance, close to that of today's precious metal catalysts, yet it is still inexpensive.
A group of NUST MISIS's young scientists has presented a new therapeutic material
based on
nanofibers made of polycaprolactone modified with a thin - film antibacterial composition and plasma components of human blood.
Based on their discoveries about the feathers» microstructure, the scientists recreated the design in a
nanofiber membrane that could be developed into an ice - proof material, which they say could potentially be used in applications such as electrical insulation.