Nanotechnology Research Laboratories

 

(Links listed alphabetically)

 
A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | All
 

Showing results 26 - 50 of 1701

 
The M.Sc. - Nanoscience by Research is a two year full-time degree program from Amity University
The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.
The Amrita Nano Biomedical Engineering Centre, or ANBEC, has been established to conduct research and development work on devices and components at the interface between biology, medicine and engineering, where nanoscience and technology can provide a significant value added benefit over existing technologies.
This M.Sc. program will provide training in the field of Molecular Medicine. Molecular medicine is the study of molecular and cellular phenomena in biological systems that enhances our understanding of human diseases and facilitates discovery research in disease prevention, diagnosis and therapy. Molecular Medicine offers new scientific tools to address mechanistic aspects of different diseases, both in diagnostics and therapy.
This is a two year course in Nanoscience and Nanotechnology with an application focusing on energy science such as Photovoltaics, Batteries, Supercapacitors, Hydrogen Storage and Carbon Capture. There are basic foundation courses in Physics and materials, followed by subject core courses dealing with nanotechnology specialization such as design of nanosystems, nanomaterials and their processing, properties and characterization, applications of nanomaterials to energy, etc.
The course is designed in such a way that students can explore in depth the application of nanotechnology to biomedical areas. The applications include new implant technologies, regenerative engineering, new nanomedicines to combat cancer and drug resistance, targeted medicines for treatment with reduced side effects, diagnostic technologies using nanomaterials etc.
The CNM's mission includes supporting basic research and the development of advanced instrumentation that will help generate new scientific insights and create new materials with novel properties.
The laboratory has an experience of over fifteen years in thin films & coatings technology, fabrication of nanostructured materials, developing/deploying in-situ & real-time monitoring techniques and in Nanometrology. LTFN programs strive to interact with industry and to transfer its technology to industrial users and developers and provide excellently educated graduates and research associates to society.
Interdepartmental-interscientific postgraduate course
The Arizona Nanotechnology Cluster, an Arizona not-for-profit organization, was formed in January 2003 to share technological advances, and to promote business development in the fast-growing field of nanotechnology.
The Biodesign Institute at ASU addresses today?s critical global challenges in healthcare, sustainability and security by developing solutions inspired from natural systems and translating those solutions into commercially viable products and clinical practices.
The primary aim of the Center for Bioelectronics and Biosensors is to create powerful bioassays for point-of-care diagnostics and a variety of advanced handheld, environmental field microanalyzers. By interfacing three advanced technologies - nanomaterials, biomaterials and electronic transducers - the researchers have the ability to create enhanced biosensors and nanobioelectronics.
Designed as a boundary organization at the interface of science and society, CNS-ASU provides an operational model for a new way to organize research through improved reflexiveness and social learning which can signal emerging problems, enable anticipatory governance, and, through improved contextual awareness, guide trajectories of NSE knowledge and innovation toward socially desirable outcomes, and away from undesirable ones.
The purpose of this program is to examine ethical challenges posed by emerging technologies, including nanotechnology, neurotechnology, biotechnology, robotics and advanced information and communication technology.
Professor Kaushal Rege's group is active in various fields of nanobiotechnoloy.
ASU's NanoFab is a flexible foundry, offering state-of-the-art device processing and characterization tools to individuals and companies who need occasional or recurring access to such facilities.
The research facility of the US Army.
The Asia Nano Forum (ANF) is a network organization to promote excellence in research, development and the economic uptake of nanotechnology within the Asian region.
The aim of the proposed Japanese-German Research Unit 'Advanced spintronic materials and transport phenomena' (ASPIMATT) is to develop the foundations for a future spintronics with the potential to complement and succeed conventional CMOS. The specific approach lies on the development and characterization of new spintronic materials for applications at room temperature and on the study of new spin transport phenomena, in particular lateral spin current phenomena.
This ASTM (originally known as the American Society for Testing and Materials) Committee addresses issues related to standards and guidance materials for nanotechnology & nanomaterials, as well as the coordination of existing ASTM standardization related to nanotechnology needs.
The Australian Centre for NanoMedicine combines Medicine, Science and Engineering to deliver therapeutic solutions to research problems in medicine. Through a commitment to research, education, knowledge transfer and commercialisation, ACN is dedicated to the prevention, diagnostics and curing of diseases.
The Centre for Quantum Computer Technology is an Australian multi-university collaboration undertaking research on the fundamental physics and technology of building, at the atomic level, a solid state quantum computer in silicon together with other high potential implementations.
The AMMRF is a national grid of equipment, instrumentation and expertise in microscopy, microanalysis, electron and x-ray diffraction and spectroscopy providing nanostructural characterisation capability and services to all areas of nanotechnology and biotechnology research.
Established under the National Collaborative Research Infrastructure Strategy, the ANFF links 8 university-based nodes to provide researchers and industry with access to state-of-the-art fabrication facilities. The capability provided by ANFF enables users to process hard materials (metals, composites and ceramics) and soft materials (polymers and polymer-biological moieties) and transform these into structures that have application in sensors, medical devices, nanophotonics and nanoelectronics.
The department carries out a significant research body in nanotechnology and nanosciences.