Nanotechnology Research Laboratories
Showing results 441 - 450 of 649 of research organizations in USA:
ENSI, partnered with the Lawrence Berkeley National Laboratory, brings together some of the world?s top researchers from across the fields of materials science, physics, engineering, and biology. Their investigations into nature?s ways of managing energy at the nanoscale will lead to real change in our capacity to generate, store, and use energy. Together, these researchers aim to improve the performance of existing energy technologies and develop entirely new ways of harnessing energy for the world?s growing population.
Professor Jeffrey Bokor's group at Berkeley.
The Yang research group is interested in the synthesis of new classes of materials and nanostructures, with an emphasis on developing new synthetic approaches and understanding the fundamental issues of structural assembly and growth that will enable the rational control of material composition, micro/nano-structure, property and functionality.
Xiang Zhang's research lab at UC Berkeley.
The Zettl research group in the Department of Physics at U.C. Berkeley and in the Materials Sciences Division of Lawrence Berkeley National Laboratory currently investigates electronic, magnetic and mechanical properties of nanoscale materials such as fullerenes, carbon and non-carbon nanotubes.
The group works at the intersection of physics, chemistry, biology, and materials science. They use a multidisciplinary approach to design, synthesize, and characterize biologically inspired materials for applications in unconventional electronic devices.
The mission of INRF is to develop and promote engineered nanoscale systems through research, education and outreach.
David Kisailus' lab is involved in the structure-function relationships in biomineralized tissues and the biologically inspired and mimetic synthesis of nano-scaled materials for energy-based applications.
The Bockrath research group at CalTech
Initially the Center is focusing on carbon, silicon and biology as these three areas already make compelling arguments for the power of the nanoscale world, and because these areas fall within the campus' existing expertise. The case for nanotechnology is often made by reference to biology, where processing is frequently carried out at the level of individual molecules on the nanometer length scale. This thrust for CNSE is predicated on the idea that biology is the theater in which nanotechnology will have its first successful applications. This follows from the fact that biology is the premier example of nanoscale science and engineering, and also because biology is currently the most important driver of the research enterprise.