Nanotechnology Research Laboratories

An interdisciplinary nanoscience research institute of Soochow University focused on functional nano and soft materials for optoelectronics, energy, green environment and nanomedicine.

A joint research institute for nanotechnology between Soochow University and the Waterloo Institute for Nanotechnology, collaborating on nano research, education and commercialization.

Joint CNRS and Sorbonne Université research unit dedicated to fundamental nanoscience, studying nanostructures, nanocrystals, plasmonics and surfaces.

This Masters programme in nanoscience and nanotechnology has been offered in collaboration with the University of Johannesburg (UJ), Nelson Mandela Metropolitan University (NMMU), University of the Free State (UFS), and the University of the Western Cape (UWC).

The primary research objective of CAAN is to conduct research in nanotechnology with a strong potential for commercialization. The research to be conducted will be focused in areas of current expertise, namely, nanoparticles and associated aspects of nanosensors.

The Nano Ph.D. program offers a research-intensive degree focused on nanoscience and nanotechnology, with an emphasis on nano-scale materials. A multi-disciplinary core curriculum is taken by students from diverse science and engineering backgrounds. These 'core' courses are intended to introduce students to contemporary topics in nanoscience and nanotechnology, and to initiate a cross-disciplinary approach to research and learning.

The center is focused on the areas of advanced photonics, including Fundamental Photonics, Information Photonics, Nanophotonics and Biophotonics.

The research group of MinJun Kim is active in research covering a wide variety of topics, including: Microbiorobotics, Soft robotics, Single molecule biophysics, Single cell analysis, Micro/nanofluidics.

A university research institute pursuing nanoscience and nanotechnology across electronics, photonics, quantum science, and life sciences, established under nanowire pioneer Lars Samuelson to connect fundamental research with industrial application.

The Spanish Nanomedicine Platforms is an initiative aiming to agregate the main Spanish players in research, the industry and the public administration, with the final objective to boost the implementation of strategic lines in the nanomedicine field, characterized by its interdisciplinarity.

Spintec is a research laboratory aiming at bridging fundamental research and product development in the exciting field of spin electronics.

The university offers a 2-year and a 5-year program.

The Sri Lanka Institute of Nanotechnology envisions being the leading Research and Innovation platform for Sustainable Nanotechnology in Asia. Thereby transforming Sri Lanka into a strong Nanotechnology-focused nation.

Srinivas Institute of Technology, a pioneer in the field of engineering education, had started B.E. in Nano Technology in the academic year 2013-2014, affiliated to Visvesvaraya Technological University, Belgaum.

The group is involved in materials innovation for enabling new device structures and concepts. They study wide range of electronic materials at nanoscale to understand importance of confinement in all geometries. Exotic schemes of maneuvering, processing, and engineering materials at low-dimensions are explored for new functionalities and applications.

The four year programme is designed to help prepare students from a broad range of disciplines for careers or graduate study in fields involving nanotechnology. These fields cover a spectrum ranging from medicine (drug delivery) and catalysis to surface/bulk chemistry and controlling even at the atomic/molecular scale to quantum computing. The students are consistently encouraged to develop this interdisciplinary approach to science and engineering. The course prepares the exciting career opportunities in a variety of diverse fields to the students.

The department deals with the latest developments in the various disciplines such as Material Science, Micro(Nano) electronics, Manufacturing of miniaturized electronic and optical devices, quantum computing, Computational Nanotechnology, Nanomechanical engineering & sensors, Nanolithography & Nanointerface engineering, and Nanomagnetism.

The program imparts several courses in Material Science, Thermodynamics, Mathematical physics, Quantum Physics, Nanochemistry initially. Later on, it provides the basic aspects of Instrumentation techniques and the advanced courses such as Thin Film Technology and Nanophotonics. At the end of programe, the students are expected to do a well-qualified project. This program is intended to enable the students' interests and provide the basic research activities for deeper insights in both theoretical and experimental aspects.

Professor Wang and his group are engaged in the research of magnetic nanotechnology, biosensors, spintronics, integrated inductors and information storage. They use modern thin-film growth techniques and lithography to engineer new electromagnetic materials and devices and to study their behavior at nanoscale and at very high frequencies. His group is investigating magnetic nanoparticles, high saturation soft magnetic materials, giant magnetoresistance spin valves, magnetic tunnel junctions, and spin electronic materials, with applications in cancer nanotechnology, in vitro diagnostics, rapid radiation triage, spin-based information processing, efficient energy conversion and storage, and extremely high-density magnetic recording.

The Stanford Nanocharacterization Laboratory (SNL), housed within the Geballe Laboratory for Advanced Materials , is being set up to provide modern facilities for the characterization of material

The goal of the Stanford Nanofabrication Facility is to provide researchers with effective and efficient access to advanced nanofabrication equipment and expertise

The research at Bao's laboratory at Stanford's Department of Chemical Engineering are centered on using chemical and chemical engineering approaches towards the formation of functional nano- and microstructures with novel electronic and photonic properties.

The Bent Research Group focuses on understanding and controlling surface and interfacial chemistry for semiconductor processing, micro- and nanoelectronics, nanotechnology, and sustainable and renewable energy. Research areas include atomic layer deposition, molecular layer deposition, area selective deposition, nanoscale materials, photovoltaics, catalysis and batteries.

Mark Brongersma's Stanford research is directed toward the development and physical analysis of nanostructured materials for nanoscale electronic and photonic devices, including plasmonics and the manipulation of light at the nanoscale.

The CCNE's goal is goal is to develop and validate nanotechnology so that one will eventually be able to predict which patients will likely respond to a specific anti-cancer therapy and to monitor their response to therapy.