Nanotechnology Research Laboratories
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The lab is focused on the creative design of energy storage platforms that be integrated into technology and/or replace fossil fuels. Central to everything they do is the development of new materials that are engineered at nanometer length scales, and developed using scalable and cost-effective approaches. This has far-reaching applications spanning aerospace systems, robotics, smart buildings, flexible electronics, and more.
The Vanderbilt Institute of Nanoscale Science and Engineering (VINSE) is a University institute focused on new science and technology based on nanoscale materials.
Nanotube- and Femtophysics Lab.
The research group of Cary Pint focuses on topics ranging across nanomaterials, energy storage, energy harvesting, sustainability, and water purification/desalination.
The Rosenthal group studies semiconducting nanocrystals. They are specifically interested in two applications exploiting the properties of nanocrystals: the use of nanocrystals as the light harvesting element in photovolatic devices and the use of fluorescent nanocrystals as biological probes for membrane proteins involved in neuronal signaling.
Variability-aware software for efficient computing with nanoscale devices. The Variability Expedition envisions a computing world where system components – led by proactive software – routinely monitor, predict and adapt to the variability of manufactured systems. Changing the way software interacts with hardware offers the best hope for perpetuating the fundamental gains in computing performance at lower cost of the past 40 years.
The goal of the European FP7 VascuBone project is to develop a 'tool box' for bone regeneration, which on one hand fulfils basic requirements and on the other hand is freely combinable with what is needed in the respective patient's situation. The tool box will include a variation of biocompatible biomaterials and cell types, FDA approved growth factors, material modification technologies, simulation and analytical tools like molecular imaging based in vivo diagnostics which can be combined for the specific medical need. This tool box will be used to develop translational approaches for regenerative therapies of three different types of bone defects.
Veneto Nanotech was established with the objective to build international excellence in research, to foster the application of nanotechnology, and to support the development of start-ups in the focus sector.
Victoria University of Wellington - MacDiarmid Institute for Advanced Materials and Nanotechnology (New Zealand)
The MacDiarmid Institute is New Zealand's premier research organisation concerned with high quality research and research education in materials science and nanotechnology.
Villanova has strived to develop state-of-the-art nanotechnology research facilities all over campus.
The new program, which was developed by faculty in the VCU Departments of Chemistry and Physics, is designed to cross-train students in the physical sciences of chemistry and physics with particular focus on how the science changes at reduced dimensions. There is a potential for other departments to become more involved as the program develops.
The Advanced Materials Group at Virginia Tech focuses on advanced functional and supramolecular bio(nano)materials: Design, synthesis and engineering of bio-inspired, bio-sourced functional polymers, supramolecular materials, and nanocomposites; stimuli-responsive materials; biomedical materials; combining covalent and non-covalent interactions to create structured smart materials.
The B.S. degree program in Nanoscience (NANO) has recently been approved. Students can declare their major in NANO starting in Spring 2015.
The Virginia Tech Center for Sustainable Nanotechnology is a multi-department, interdisciplinary research center focused on advancing nanoscale science and engineering research and education with an emphasis on sustainability. They develop nanoscale technologies and leverage these technologies to help remedy global sustainability challenges in areas such as clean air and water, waste minimization, environmental remediation, food safety, and renewable energy.
The cleanroom currently houses an array of process tools for the research and development of MEMS, nanotechnology, bio-sensing applications, photonic and microelectronic devices.. Adjacent to the cleanroom, there is another lab which houses and supports several physical vapor deposition and metrology device characterization tools. Inside the clean room there are exhausted process areas for photolithography, development/solvent, and acid/base processing.
This project assembles a collaborative team of interdisciplinary secondary science/math teachers and university scientists studying nanoscale processes and science education. As part of their collaborative effort, they hope to develop materials and resources that can be fit into secondary science or math curriculum.
This research group, directed by Professor Michael Hochella within the Department of Geosciences, works in the field of nanoscience applied to environmental geochemistry, biogeochemistry, and mineralogy.
The NCFL was created to provide researchers with the tools to work in converging disciplines at these dimensions. Established in 2007, it is an initiative of the Institute for Critical Technology and Applied Science at Virginia Tech. The facility is equipped with more than $10 million in highly specialized equipment, more than half of which was made possible through funding provided by Commonwealth Research Initiative. It seeks to help researchers investigate novel phenomena and build transforming technologies that solve critical challenges.
The centre carries out cutting edge research of global standards through our dedicated faculty and students, and apply the acquired scientific knowledge towards overall improvement of human life.
Dealing with the emerging technology of nano-electronics and nano-photonics that includes the development of nanometric devices and integrated circuits, single electron and quantum dot devices, nanotubes as active devices, superconductors, and interconnecting methodologies for futuristic integrated circuit technologies.
Objective of the degree is to create a strong research focus, with high achieving students, working in state-of-the-art research laboratories equipped with world class fabrication and characterisation resources.
An independent research and technology organization that is active in the field of nanosafety through characterizing exposure scenarios, evaluation of environmental and human health impact and risk assessment in support of safe nanomaterial design along the life cycle. Also interdisciplinary research dedicated to develop quantitative bionanoscience for consumer safety and nanodiagnostic applications is performed.
VTT produces research services that enhance the international competitiveness of companies, society and other customers at all stages of their innovation process. Research areas include nanobiotechnology and nanomaterials.
Wageningen BioNT at the University of Wageningen is active in the fundamental science and technology of micro- and nanosystems and their applications in food and health. The centre helps companies to utilize the opportunities of micro- and nanotechnology to improve our food and prevent health problems.