Abstract: Colloidal elements have historically played a key role in «bottom - up» self - assembly processes
for nanofabrication.
«These origami can be customized for use in everything from studying cell behavior to creating templates
for the nanofabrication of electronic components,» says Dr. Thom LaBean, an associate professor of materials science and engineering at NC State and senior author of a paper describing the work.
Not exact matches
The researchers used the state - of - the - art
nanofabrication technology to make arrays of electrodes with a width of only 100 nanometers (0.00001 centimeters) to excite sound waves at an unprecedented high frequency that is higher than 10 GHz, the frequency used
for satellite communications.
Liquid - phase precursors had been demonstrated before, but the materials had to be enclosed in a tiny capsule where the reaction took place, limiting fabrication flexibility, capacity and utility of the approach
for 3D
nanofabrication.
«I use microfabrication and
nanofabrication techniques to tackle problems that are challenging
for biologists or clinicians to address.»
We show in this presentation that block copolymer self - assembly give access to a straightforward and versatile
nanofabrication method
for this type of structures.
For instance, the nanofabrication of 2D graphene nanomesh [1], 1D graphene nanoribbons [2] and 0D graphene quantum dots [3], has paved the way for the development of the promising field of nanographene optoelectroni
For instance, the
nanofabrication of 2D graphene nanomesh [1], 1D graphene nanoribbons [2] and 0D graphene quantum dots [3], has paved the way
for the development of the promising field of nanographene optoelectroni
for the development of the promising field of nanographene optoelectronics.