Nanotechnology Research Laboratories
Showing results 401 - 410 of 631 of research organizations in USA:
MIT's Center for Bits and Atoms is an ambitious interdisciplinary initiative that is looking beyond the end of the Digital Revolution to ask how a functional description of a system can be embodied in, and abstracted from, a physical form.
An independent, nonprofit organization that serves clients in industry, government, and academia. One Research area is Nanoporous Materials: Modeling and Characterization.
For their projects, the group designs miniaturized nano-enabled sensors for the health and the environment; low power circuits that can operate at a fraction of a volt; imagers that can see the invisible terahertz band and even detect fluorescence (lifetime) that vanish in less than a nanosecond.
Work on optical sensing arrays
The center on Functional Engineered Nano Architectonics (FENA) aims to create and investigate new nano-engineered functional materials and devices, and novel structural and computational architectures for new information processing systems beyond the limits of conventional CMOS technology.
The Center for Cell Control is working on an unprecedented approach to first utilize systems control, with therapeutic intent, to determine the parameters for guiding the cell to a directed phenotype/genotype which will then be followed by in depth study, using nanoscale modalities, of the path by which this desired state is achieved. This approach will enable engineering systems that can be applied towards the regulation of a spectrum of cellular functions, such as cancer eradication, controlling viral infection onset, and stem cell differentiation.
The Nanoelectronics Research Facility is part of the Elecetrical Engineering Department at the University of California, Los Angeles.
The Photonics Laboratory at UCLA performs multi-disciplinary research and development in the fields of silicon photonics, microwave photonics, and biophotonics for biomedical and defense applications. The Lab has two complementary missions. The first is to solve critical problems faced by defense, commercial industries, and medicine through innovative approaches that enable revolutionary advances in devices or systems. The second and equally important mission is to produce creative and highly skilled scientists and engineers who will be the driving force for technological innovation in the 21st century.
Research in the group focuses around two intertwined goals. These are first, to create complex materials with nanoscale periodicity using self-organization, and second, to produce new physical properties because of that nanoscale architecture.
Vaults are components of cells that were first described in 1986. Because the particle is abundant in all cells of higher organisms and highly conserved throughout evolution, it is likely that the function of the vault is important to life. This website is designed for the educated non-scientist. It summarizes the present state of knowlege of this fascinating particle.