Stanford University
The Nishi Research Group at Stanford University has been working in the area of both evolutionary and revolutionary nanoelectronics from process and device point of view for CMOS in the ITRS node of 45-32nm and beyond, including expansion to three dimensional integration. The group consists of EE and MSE students, research staff members, visiting professors and consulting professors, which has interdisciplinary nature of talents and research activities.The Nishi Research Group at Stanford University has been working in the area of both evolutionary and revolutionary nanoelectronics from process and device point of view for CMOS in the ITRS node of 45-32nm and beyond, including expansion to three dimensional integration. The group consists of EE and MSE students, research staff members, visiting professors and consulting professors, which has interdisciplinary nature of talents and research activities.
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Related ContentNSF, Rice To Trace How Nanoparticles Travel Through the Food ChainThe National Science Foundation and Rice University will investigate how nanoparticles travel throughout the food chain to help ensure food health and safety. The project will be led by Dr. Pedro Alvarez, chair of Rice’s Civil and Environmental Engineering Department, and Vicki Colvin, Director of Rice’s Center for Biological and Environmental Nanotechnology.
Canada Invests $4.6 Million in Nano Coatings, Tooling for Joint Strike FighterThe Canadian Government will invest in nanotechnology coatings for the multinational Joint Strike Fighter program, a U.S.-led multinational effort to build affordable and multi-role fifth-generation stealth fighter aircraft.
A Novel Graphene Nanomaterial to Harden PlasticsMichigan State University researchers are developing a oovel nanomaterial to make plastics lighter and stronger. The graphene nanomaterial, called xGnP, could bring us fuel-efficient airplanes and cars.
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