Nanotechnology Research Laboratories


Showing results 281 - 290 of 631 of research organizations in USA:

ENCOMM NanoSystems Laboratory is operated by the OSU Center for Electronic and Magnetic Nanoscale Composite Multifunctional Materials. Its goal is to provide academic and industrial users with access to advanced material characterization and fabrication tools for research and development applications.
The center facility for nanotech research at Ohio State.
Nanoscale research at Ohio University's Department of Physics.
A Source for Nano News, Events and Useful Links in the State of Oklahoma.
The central theme of the group's research program is the development and application of cutting-edge bio- and nano- technologies and ultrasensitive analytical methodologies to address fundamental and practical questions in chemical, biochemical and biomedical research.
The Oregon Nanoscience and Microtechnologies Institute is Oregon's first 'Signature Research Center' for the purpose of growing research and commercialization to accelerate innovation-based economic development in Oregon and the Pacific Northwest.
Graduates who receive the Associate in Applied Science degree from OSU Institute of Technology in Nanoscientific instrumentation will be prepared for a career in such wide-ranging fields as aerospace, explosive detection and protection, manufacturing, biosystems, instrumentation, energy conservation, and agriculture.
The PNNL operated by Battelle for the U.S. Department of Energy, is a recognized leader in nanomaterials and nanobiology. Together with other Battelle managed labs, Brookhaven National Laboratory, the National Renewable Energy Laboratory and Oak Ridge National Laboratory, they represent a diverse collaborative team in nanoscience, nanoengineering and nanotechnology
PARC collaborates with sponsors and clients to discover breakthrough business and technology concepts that solve real needs, and transform how enterprises deliver value to customers.
The 2DCC-MIP is a national user facility, supported by the National Science Foundation, that is focused on the development of two dimensional (2D) chalcogenides for applications in next generation electronics beyond silicon for digital circuits and flexible electronics. These materials include 2D transition metal dichalcogenide (TMD) films that are only a few atoms thick, topological insulator (TI) bismuth chalcogenide films that only conduct on the 2D surface, and multilayers of dissimilar chalcogenide films whose properties are dominated by 2D interfaces.