In rotary jet spinning technology, a rotating nozzle extrudes a solution of extracellular matrix (ECM)
into nanofibers that wrap themselves around heart valve - shaped mandrels.
The team used the Parker lab's proprietary rotary jet spinning technology — in which a rotating nozzle extrudes an ECM solution
into nanofibers that wrap themselves around heart valve - shaped mandrels.
One is a peptide molecule which self - assembles
into nanofibers.
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.
Not exact matches
A group of scientists claim that they were able to find a way that can help convert atmospheric CO2
into carbon
nanofibers.
First the plants are dried and then mechanically pulped
into micro - or
nanofibers.
The peptide molecules self - assemble
into long structures called
nanofibers, which come together to form a molecular «scaffold.»
Until scientists learn to spin STEP's carbon
nanofibers into long commercially usable fibers, he says, it's too early to hail the process as an environmental breakthrough.
Today in Nano Letters, the group presents a process that turns atmospheric CO2
into carbon
nanofibers similar to valuable materials used in industries such as aerospace, construction, and electronics.
Researchers have invented a process that turns atmospheric carbon dioxide
into carbon
nanofibers.
Hartgerink and lead author Vivek Kumar, a postdoctoral researcher at Rice, viewed clotting as a good avenue of investigation for practical application of KOD, a synthetic protein made of 36 amino acids that self - assemble
into triple - helix
nanofibers and hydrogels.
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.