Nanotechnology Databases

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Nanotechnology Research Laboratories

 

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Showing results 351 - 375 of 553 for research and community organizations starting with U:

 
The CHN is focused on developing tools and processes that will enable high-rate/high-volume bottom-up, precise, parallel assembly of nanoelements (such as carbon nanotubes, nanoparticles, etc.) and polymer nanostructures.
Making, Moving, Modeling and Characterizing Nanoscale Structures, Surfaces and Features
The group develops novel approaches to the synthesis, processing, integration and understanding of porous, composite, and complex nanostructured materials.
CHTM's mission is one of research and education at the boundaries of two disciplines. The first, optoelectonics, unites optics and electronics, and is found in CHTM's emphasis on semiconductor laser sources, optical modulators, detectors and optical fibers. The second, microelectronics, applies semiconductor technology to the fabrication of electronic and optoelectronic devices for information and control applications.
This exciting program bridges the distinct properties of the nanoscale to microsystem functionality. The integrated academic and research activities highlight our capabilities and unique breadth in materials synthesis and self-assembly, nanolithography, interrogative platforms, and functional micro/macrosystems.
An NSF-IGERT Ph.D. Fellowship Program. A Training Program to Prepare Graduate Students for Emerging Nanotechnology Fields.
This exciting program bridges the distinct properties of the nanoscale to microsystem functionality. The integrated academic and research activities highlight our capabilities and unique breadth in materials synthesis and self-assembly, nanolithography, interrogative platforms, and functional micro/macrosystems.
Nanoscience at the University of New Mexico is a member of NNIN
The Shelnutt research group at Sandia National Laboratories works on use of metalloporphyrin-based catalysts and photocatalysts in the fabrication of nanostructured materials.
This program leads to the award of a Bachelor of Science in Nanotechnology over four years of full-time study, with Honours for students who perform with merit. At present, the principal entry point into this degree is at Stage 1 level. Students are normally expected to complete each stage before proceeding to the next stage. A total of 192 units of credit (UOC) must be completed for the award of this degree.
The group has a number of interests within the broader topic of the physics of nanoscale electronic devices and condensed matter physics.
The Laboratory for Dynamics and Control of Nanosystems (LDCN) is a multi-million dollar state of the art research facility dedicated to the advancement of nanotechnology through innovations in systems theory and control engineering. The main thrust of research in the Laboratory is to develop methodologies, technologies and the necessary instrumentation for fast and accurate interrogation and manipulation of matter at the nanoscale.
The mission of the Surface and Nanoscience group is to be a centre of excellence for the modelling and analysis of surfaces and nanometre scale materials.
INEX is a microsystems and nanotechnology R&D, commercialisation and manufacturing organisation.
The recent breakthroughs in the DeSimone laboratories using specifically-designed materials for imprint lithography have enabled an extremely versatile and flexible method for the direct fabrication and harvesting of monodisperse, shape-specific nano-biomaterials.
The Ph.D. in Nanoscale Science at UNC Charlotte is an interdisciplinary program that addresses the development, manipulation, and use of materials and devices on the scale of roughly 1-100 nanometers in length, and the study of phenomena that occur on this size scale. The program prepares students to become scholarly, practicing scientists who possess the critical thinking, methodological, and communication skills required to advance and disseminate knowledge of fundamental and applied nanoscale science.
The NSRG is a conglomoration of various groups studying nanoscale science primarily associated with the University of North Carolina at Chapel Hill.
The Center for Nano Science and Technology explores new device concepts and associated architectures that are enabled by novel phenomena on the nanometer scale. It catalyzes multidisciplinary research and education in nanoelectronics, molecular electronics, nano-bio and bio-fluidic microstructures, circuits, and architectures. It facilitates collaborations between participating faculty from the departments of electrical engineering, computer science and engineering, chemical engineering, chemistry and biochemistry, and physics.
The Computational Nanoscience Group at Nottingham, headed by Dr. Elena Bichoutskaia, is a home to theoretical and computational scientists who are interested in nanoscale phenomena. The group works on the development of modelling approaches to a wide range of problems in condensed matter and materials science. Focus of their current research is on the behaviour, properties and manipulation of carbon nanomaterials and low dimensional systems.
The degree follows the same syllabus as the BSc Physics programme with an introduction to nanoscience and other cutting-edge research provided by the Frontiers in Physics module. In year two you will again pursue the same core as for the BSc Physics course but will also take the Force and Function at the Nanoscale, and Molecular Bio- and Nanophysics modules (which replace two of the optional modules of the core course).
The group's research focuses on chemistry of carbon nanotubes and fullerenes and development of applications for these materials. Directed assembly of functional networks from nanoscopic building blocks (nanotubes, nanoparticles, macromolecules) is at the center of the experimental activities.
'Bottom up' approaches to nanotechnology, scanning probe microscopes, properties of fullerenes and derivatives.
The Centre is the hub for the University of Nottingham's Nanoscience postgraduate Masters programme.
The degree follows the same syllabus as the BSc Physics programme with an introduction to nanoscience and other cutting-edge research provided by the Frontiers in Physics module. In year two you will again pursue the same core as for the BSc Physics course but will also take the Force and Function at the Nanoscale, and Molecular Bio- and Nanophysics modules (which replace two of the optional modules of the core course).
This innovative taught, 1-year fulltime higher degree course aims to train a new generation of scientists and engineers in the emerging field of Nanoscience.
 
 
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