Quanxi Jia, working in the areas of superconductivity, magnetic materials and thin - films, has conducted pioneering research in complex oxide
thin film growth and is a recognized leader in the field of electronic device fabrication.
Not exact matches
We used a new type of MBE system to observe what happens during the
growth of oxide
thin films.
With this understanding, scientists can control — on an atomic level — the
growth of oxide
thin -
films.
A research group led by Junichi Isoya, professor emeritus, University of Tsukuba and Tokuyuki Teraji, principal researcher, Optical and Electronic Materials Unit, NIMS, has successfully fabricated for the first time in the world single - photon sources of SiV (silicon vacancy) centers — one of the color centers in diamond during the
growth of
thin film diamond, which have high purity and crystalline quality — by introducing them at extremely low concentrations.
Materials science and engineering postdoctoral researcher Hyungwoo Lee looks inside a
thin film deposition system during oxide
thin film structure
growth.
to problems encountered in the
growth processes of epitaxial
thin film systems.
Atomic layer deposition is a layer - by - layer chemical vapor deposition - based
thin -
film growth technique used extensively in the electronics industry to deposit nanometer - thick
films of dielectric materials on devices.
Abstract: Scientists at the U.S. Naval Research Laboratory (NRL) have devised a clever combination of materials — when used during the
thin -
film growth process — to reveal that particle atomic layer deposition, or p - ALD, deposits a uniform nanometer - thick shell on core particles regardless of core size, a discovery having significant impacts for many applications since most large scale powder production techniques form powder batches that are made up of a range of particles sizes.
Home > Press > Monocrystalline silicon
thin film for cost - cutting solar cells with 10 - times faster
growth rate fabricated: Controlling nano surface roughness of porous silicon
Dr. Peden has written or contributed to more than 160 peer - reviewed scientific publications on the kinetics and mechanisms of automobile exhaust catalysis; the development of zeolite catalysts for diesel engine emission control; hydrocarbon reforming over bimetallic catalysts; the structure of hydroprocessing catalysts; the development of novel, supported solid acid catalysts for petroleum refining; the
growth and properties of oxide and semiconductor
thin films; and model studies of adhesion at metal / metal - oxide interfaces.
When prepared by
thin film crystal
growth methods, the interface conducts electricity, even though strontium titanate and lanthanum aluminate do not.
Well exposed to crystal
growth techniques,
thin -
film deposition, ion implantation, and photo lithography