Nanotechnology Research Laboratories

The Royal Microscopical Society is at the forefront of new ideas and developments in microscopy and imaging. It is the only truly international microscopical society, drawing distinguished members from all over the world. It also serves the needs of its company members who represent all the major manufacturers and suppliers of microscopes, equipment and services. It is dedicated to advancing science, developing careers and supporting wider understanding of science and microscopy.

Multidisciplinary basic research into the nature and limits to self-organization in combinatorially complex chemical systems. Electronic micro-and nanosystems provide controlled and programmable environments for studying and optimizing such systems, and so our research is also forging a link between the three rapidly expanding technologies: Information Technology (IT), Biotechnology (BT) and Nanotechnology (NT).

The Rutgers' MSE program encourages students to select an area of focus in one or more of the following areas: Biomaterials, Nanomaterials, Energy Conversion and Storage, Polymers, Electronic and Optical Materials, Packaging Materials.

The Fei Zhang Group focuses on the design, construction, and application of DNA and RNA nanostructures and nanodevices, including programmable 2D and 3D nanostructures that can interface with functional materials for biosensing, drug delivery, bioimaging, and molecular computing.

The Hybrid Micro/Nanomanufacturing Laboratory at Rutgers Mechanical and Aerospace Engineering translates the properties of functional nanostructures into mass-manufactured complex architectures using combinations of bottom-up and top-down, or large-area and small-area, lithographic techniques.

The Institute for Advanced Materials, Devices and Nanotechnology focuses on science and technology driven by atomic-scale and nanoscale manipulation of materials, and provides shared nanofabrication and electron microscopy facilities spanning physics, chemistry, biology, and engineering.

Das sechssemestrige Studium, das mit dem Bachelor of Science B.Sc. abschliesst, kombiniert Grundlagen der Physik und der Ingenieurwissenschaften mit dem thematischen Schwerpunkt Quantentechnologien. Dem fächerübergreifenden Systemgedanken wird dabei besondere Bedeutung beigemessen.

The Center is engaged in highly effective multidisciplinary research programs, bringing together researchers with expertise spanning advanced materials, nano-bio technology, nano-electronics, micro-nano fluidics, micro-nano-electromechanical systems and nano-engineering.

The SIINN ERA-NET promotes the safe and rapid transfer of European research results in nanoscience and nanotechnology (N&N) into industrial applications. National and regional resources will be virtually pooled to create a transnational programme of research. SIINN will bring together today?s fragmented research activities on the potential risks of engineered nanomaterials for environment, human health, and safety.

SAFENANO at the Institute of Occupational Medicine is the UK Micro and Nanotechnology Centre of Excellence providing nanotechnology safety services to industry, academia and government.

SnIRC is based on existing collaborations between the Institute of Occupational Medicine in Edinburgh, Napier University, Aberdeen University, Edinburgh University and the US National Institute of Occupational Safety and Health (NIOSH).

Research in nanoelectronics.

A university nanofabrication center focused on integrated carbon, polymer and silicon microfabrication and nanotechnology, supporting research and student training in areas such as MEMS, neural probes, graphene processing and organic solar cells.

Sandia National Laboratories microsystems and nanofabrication complex spanning silicon and compound-semiconductor cleanrooms for the design, fabrication, integration and qualification of microsystems, microelectronics and nanodevices; co-manages the Center for Integrated Nanotechnologies.

Through special grants awarded by the NIH, the Burnham has been designated as one of four centers for devising new therapies for cardiovascular disease using bionanotechnology.

Sankara Nethralaya has today grown into one of the largest Ophthalmic Hospitals in the world. It's Clinical and Basic Research Activities include nanomedicine.

The Biological Micro/Nanosystems Laboratory at Santa Clara University develops micro/nanoscale systems for biomedical engineering. Research focuses on microfluidic and MEMS devices, affordable point-of-care diagnostics for resource-limited settings, environmental monitoring, biosensors, microfabrication, nucleic acid detection, electrochemistry, and electrophoresis.

The Center for Nanostructures at Santa Clara University conducts, promotes, and nurtures interdisciplinary nanoscale science and technology research and education. The center brings together engineering and science faculty and students and provides equipment including scanning electron microscopy, nanomanipulation, electrical measurement, wafer probing, and atomic force microscopy resources.

The TENT Laboratory, Thermal and Electrical Nanoscale Transport, is part of Santa Clara University's Center for Nanostructures. It conducts interdisciplinary research and education in nanoscale science and technology and builds on partnerships with NASA Ames Research Center, Applied Materials, Hitachi High Technologies America, and other organizations.

The Centre was established to carry out research on cutting-edge technologies in two of the most crucial sectors in the world - Healthcare and Energy. The Centre aims to develop products based on nanomaterials that could be commercialized in the near future.

The leading area of research includes nanomaterials, nanotechnology, nanocomposites, nanoelectronics, nanofabrication. In addition to research, the centre also conducts training and awareness programmes, workshops national and international conferences on recent trends and developments of Nanoscience on various themes of national interests. The centre is undertaking research and development projects from various agencies and is offering consultancy services to in industries and research organizations in India and abroad.

In the course of this master programme, you will acquire fundamental and extensive theoretical and practical knowledge of all disciplines related to design, laboratory and manufacturing techniques. Upon graduation, you will have mastered the skills needed to come up with innovative product-market combinations and production processes. Meanwhile, you will have an entrepreneurial, creative and inquisitive mindset.

Semi is the global association for suppliers enabling nanomaterials and nanomanufacturing technologies.

The Semiconductor Industry Association (SIA) is the premier trade association representing the U.S. semiconductor industry, uniting 95 companies responsible for more than 85 percent of semiconductor production in this country.

The group studies the broad and interdisciplinary field of nanotechnology from fundamental to application aspects.