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Nanotechnology Research – Universities


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Showing results 126 - 150 of 517 for university labs starting with U:

Starting Fall 2008/Winter 2009, students can enroll in the only process learning driven Nanoscience program in North America. Courses offered are a B.Sc. Minor in Nanoscience and a B.Sc. Concentration in Nanoscience.
Starting Fall 2008/Winter 2009, students can enroll in the only process learning driven Nanoscience program in North America. Courses offered are a B.Sc. Minor in Nanoscience and a B.Sc. Concentration in Nanoscience.
The University of Calgary nanoGroup is a student-led organization founded in 2013 with one central focus: to cultivate and support the nanotechnology community at the University of Calgary Campus.
The Center for Environmental Implications of Nanotechnology (CEIN) explores the impact of libraries of engineered nanomaterials on a range of cellular lifeforms, organisms and plants in terrestrial, fresh water and sea water environments. By being able to predict which nanomaterial physicochemical properties are potentially hazardous, the CEIN will be able to provide advice on the safe design of engineered nanomaterials from an environmental perspective.
The Micro-Nano Innovations (MiNI) Laboratory, led by Dr. Tingrui Pan, is an incubator for exploratory interdisciplinary research bridging nanoengineering and biomedicine. They endeavor to develop novel micro-nanoengineered platforms for contemporary biological applications, to deliver innovative engineered solutions to pressing medical problems, and to educate next-generation bioengineers for future healthcare.
NEAT focuses on applications in ceramic, chemical, electronic, environmental, and agricultural technology; environmental transport and transformation and resulting roles in environmental pollution and remediation; interactions with the biosphere, especially microorganisms; effects on health.
The Alivisatos Group is a research group at UC Berkeley and Lawrence Berkeley National Laboratory.
Seung-Wuk Lee's research group uses chemical and biological approaches to create precisely defined nanomaterials, to investigate complex phenomena at their interfaces, and to develop novel, biomimetic, functional materials. Specifically, they focus on bone and its basic building blocks to study the fundamental mechanisms of bone mineralization and resorption and to develop bioinspired functional materials and devices.
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.
The Designated Emphasis in Nanoscale Science and Engineering program at UC Berkeley is crafted around a set of educational principles that will motivate physical science and engineering students to acquire an understanding of the capabilities, as well as the limitations, of each other's fields. The basic themes of study focus on the synthesis, characterization, fabrication, and modeling of nanostructured materials and devices.
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.
The group's goal is to understand and exploit phenomena that arise from quantum confinement of atoms and molecules to reduced dimensions, so as to engineer new classes of electronic and electromechanical devices.
The Graduate Program offers training leading to the degrees of M.S. and Ph.D. in Chemical and Environmental Engineering. Taking advantage of the complementary skills and expertise of the faculty, our graduate students pursue interdisciplinary and often collaborative research at the frontiers of chemical and environmental engineering. One of the main research areas includes Advanced Materials and Nanotechnology.
The research group of Nosang Myung.
The mission of the Nano-Device Laboratory (NDL) research group is theoretical and experimental investigation of the properties of inorganic / organic / hybrid nanostructures and development of novel electronic / optical / thermoelectric devices and circuits based on these nanostructures.
The UCR online Master of Science in Engineering with a specialization in Materials at the Nanoscale is an exploration of nanoscale processes and applications, including the design, synthesis and processing of nanostructured materials. Coursework covers a variety of high-level topics in nanoscience, including microelectromechanical systems and crystal structure, bonding and defects.
The Department of NanoEngineering offers undergraduate programs leading to the B.S. degrees in NanoEngineering and Chemical Engineering.
This new department, established July 1, 2007, will cover a broad range of topics, but focus particularly on biomedical nanotechnology, nanotechnologies for energy conversion, computational nanotechnology, and molecular and nanomaterials.
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