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.
Materials science and engineering postdoctoral researcher Hyungwoo Lee looks inside a thin
film deposition system during
oxide thin
film structure
growth.
Dr. Kaspar's research interests include the epitaxial
growth (via oxygen - plasma - assisted molecular beam epitaxy or pulsed laser deposition) and structural characterization of metallic and metal
oxide films.
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.
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.
Understanding how these properties change is critical to using them to improve technologies, and crystalline
film growth using dopants is an ideal means of making model
oxide materials.
This system will enable the
growth of
oxide films of increasing complexity.