Important achievements have been done in the preparation and characterization of: i) Gold nanoparticles stabilised through thiol derivatised organic - and bio-molecules; ii) nanocomposite coatings for low friction and high wear resistance applications and iii)
new nanostructured materials for hydrogen storage.
«Using data science tools to discover
new nanostructured materials.»
Not exact matches
«It is not difficult to foresee that the «AX» structures represent a
new family of
nanostructured materials, much of which will probably be 2D,» Gogotsi said.
Researchers have demonstrated a
new process for rapidly fabricating complex three - dimensional
nanostructures from a variety of
materials, including metals.
Fischer, along with collaborator Michael Crommie, a UC Berkeley professor of physics, captured these images with the goal of building
new graphene
nanostructures, a hot area of research today for
materials scientists because of their potential application in next - generation computers.
Providing fundamental insights into the interactions between molecules is important for the development of
new so - called
nanostructured materials.
Bank is finding ways to grow and use crystalline semiconductor
nanostructures for use in
new materials and devices for electronics and optoelectronics.
Over the last decade, applied physicists have developed
nanostructured materials that can produce completely
new states of light exhibiting strange behavior, such as bending in a spiral, corkscrewing and dividing like a fork.
Now, researchers led by Xiaoyu «Rayne» Zheng, an assistant professor of mechanical engineering at Virginia Tech have published a study in the journal Nature
Materials that describes a new process to create lightweight, strong and super elastic 3 - D printed metallic nanostructured materials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D archi
Materials that describes a
new process to create lightweight, strong and super elastic 3 - D printed metallic
nanostructured materials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D archi
materials with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3 - D architectures.
Material scientists expect the
new multifunctional properties of hybrid
nanostructures will transform the development of high - performance devices, including batteries, high - sensitivity sensors and solar cells.
Professor Laura Cipolla, from the Department of Biotechnology and Biosciences at the University of Milano - Bicocca, added: «Based on our background on the chemical modification of bio - and
nanostructured materials, proteins, and carbohydrates, we designed a
new chemical approach in order to force the organic component polycaprolactone to stay together in a stable way with the inorganic component silica.»
Team leader Jason Fowlkes, a research staff member at ORNL's Center for Nanophase
Materials Sciences, a DOE Office of Science User Facility, said the
new system integrates design and construction into one streamlined process that creates complex 3 - D
nanostructures.
Applications for this research demonstrate implications for use in
materials like abrasion resistant paints, high surface area catalyst, electron tunneling barriers, ultra-violet adsorption or capture in sunscreens or solar cells and even beyond when core - shell nanoparticles are used as buildings blocks for making
new artificial
nanostructured solids with unprecedented properties.
«With our
new ability to probe both polymer properties and
nanostructure, it will be possible to tune
materials for optimal performance in an array of novel technologies, Collins said.