Prof. Ying has been recognized with numerous awards for her research
on nanostructured materials for catalytic, biomedical, diagnostic and energy applications.
Not exact matches
His research is focused
on fabricating and exploring the properties of
nanostructured materials, surfaces, and interfaces to improve energy transport and conversion.
«We believe this is the first example of 2D atomically thin
nanostructures made from ionic
materials,» says Peidong Yang, a chemist with Berkeley Lab's Materials Sciences Division and world authority on nanostructures, who first came up with the idea for this research some 20 y
materials,» says Peidong Yang, a chemist with Berkeley Lab's
Materials Sciences Division and world authority on nanostructures, who first came up with the idea for this research some 20 y
Materials Sciences Division and world authority
on nanostructures, who first came up with the idea for this research some 20 years ago.
The work is part of a major research effort
on perovskite
materials being led by Stranks, within MIT's Organic and
Nanostructured Electronics Laboratory.
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.»
A jumble of
nanostructures on this
material's surface enables it to absorb light from many angles.
Jorik is a postdoc in the Brongersma lab in the department of
Materials Sciences, where he is working
on nanostructured surfaces for the control over light - matter interactions.
A novel
nanostructured material based
on tantalum oxide could make possible non-volatile crossbar array memories that store up to 162 gigabits in 3 - D memory stacks.
The latest investigations
on the thermal properties of silicon, the most common
material in electronics, micro - and nano - electro - mechanical systems (MEMS and NEMS) and photonics, have pointed to
nanostructuring as a highly efficient approach to acoustic phonon engineering [1 - 3].
Catalytically growing graphene (a sheet of carbon just one atom thick) and other 2D
materials on polycrystalline metal foils by chemical vapour deposition (CVD) is one of the best ways to fabricate continuous sheets of these
nanostructures.
«
Nanostructured materials are ideally suited to study the impact that spatial properties at the single molecule level have
on cell adhesion.»
For a long time, Aizenberg's research has focused
on studying complex natural micro and
nanostructured materials — such as those in iridescent opals or in butterfly wings — and unraveling the ways biology controls the chemistry and morphology of its nanoscale building blocks.
The confinement of noble gases
on nanostructured surfaces, in contrast to bulk
materials, at non-cryogenic temperatures represents a formidable challenge.
A jumble of
nanostructures on this
material's surface enables it to absorb light from many angles.