Nanotechnology Research - Universities
Showing results 301 - 310 of 534 of university labs in USA:
The group's research spans diverse fields, including materials science, chemistry, stem cells biology and additive biomanufacturing. Specifically, the lab is developing biomimetic nanomaterials with native interface tissue-like gradient in physical and chemical properties, integrating advanced micro- and nano- fabrication technologies to mimic native interface tissue architecture and directing stem cell behavior to obtain regionalized tissue constructs in vitro and in vivo.
The PNC Lab is the research group of Professor Jaime Grunlan and is interested in nanostructure and microstructure of particle-polymer systems.
The center's Nanoscale Materials and Applications has programs in nanomagnetics, inorganic nanomaterials, binano materials, and organic films nanocomposites.
The Nanomaterials Application Center coordinates, facilitates, and participates in nanoscience and nanoengineering applications and expedites commercialization of inventions.
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.
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.