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Nanotechnology Research – Universities

 

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Showing results 1 - 25 of 32 for university labs starting with L:

 
The research activities of this group focus on creating, understanding and controlling materials on the scale of nanometres. We have a strong focus on surface science, in particular, exploring chemical and molecular properties and processes at surfaces and at interfaces.
The Nanotechnology / Science double degree program aims to provide students with a broad education in disciplines that will underpin the science and technology, in particular nanotechnology, in the coming years. Our double degree course structure provides full coverage of subject areas, avoiding the compromises of shorter niche degrees where the supporting sciences are reduced to include the nanotechnology units.
This double degree program is offered by the Departments of Physics, Chemistry and Biochemistry, and enables completion of a Masters level nanotechnology degree in combination with a Bachelor of Science (Honours) degree focused on the disciplines that underpin nanotechnology. It provides nanotechnology students with a direct path from first year through to a Masters qualification. Graduates with qualifying grades will be eligible for entry into a Ph.D. in a relevant discipline area at La Trobe University. The double degree structure is chosen for the teaching of nanotechnology, as it requires knowledge of a broad range of supporting sciences and time to develop the required specialisation.
This double degree program is offered by the Departments of Physics, Chemistry and Biochemistry, and enables completion of a Masters level nanotechnology degree in combination with a Bachelor of Science (Honours) degree focused on the disciplines that underpin nanotechnology. It provides nanotechnology students with a direct path from first year through to a Masters qualification. Graduates with qualifying grades will be eligible for entry into a Ph.D. in a relevant discipline area at La Trobe University. The double degree structure is chosen for the teaching of nanotechnology, as it requires knowledge of a broad range of supporting sciences and time to develop the required specialisation.
The Master of Nanotechnology is a comprehensive two year course featuring both in-depth lecture units, seminars by leading speakers and a wide range of practical learning opportunities. Graduates are equipped with the broad range of the skills required to flourish in the rapidly developing field of nanotechnology. The course has a strong research focus, with high achieving students, those in the Honours stream, working in state-of-the-art research laboratories equipped with world class fabrication and characterization resources.
The Nanotechnology / Science double degree program aims to provide students with a broad education in disciplines that will underpin the science and technology, in particular nanotechnology.
The Laboratory, currently under construction, aims to strengthen the scientific and technological cooperation between Portugal and Spain in the areas of nanotechnologies and nanosciences.
In past decades, nanostructured materials have shown promise of revolutionizing a number of areas, including theranostic, electronic, and photonic materials. Applications of these fields include yet a wider range of specialities, which can be incorporated into sensor material design. This shall be the focus of the MEAN Lab; fundamental material properties and applications of nanomaterials to sensor design. The MEAN Lab shall span a spectrum of expertise (e.g. - nanomaterials, bionanotechnology, interfacial science, electrochemistry), all of which fall under the umbrella of sensor design.
The Quantum Technology Centre contains state-of-the-art nanofabrication facilities, supported by molecular beam epitaxy reactors for atomic layer-by-layer growth of semiconductor nanostructures and devices. Fabrication techniques available include electron-beam lithography using a dedicated electron-beam writer, plasma processing and thin-film deposition. Electronic structures are measured at temperatures down to 10 mK and below by means of DC, microwave and pulse techniques. Photonic structures are characterized using a variety of specialist (0-17 Tesla) magneto-optics and (4-300 K) spectroscopy techniques, x-ray diffraction, electron microscopy and atomic force microscopy methods.
The laboratory merges and coordinates Centres of Excellence in the basic research related to the development of micro and nano-devices and sensors for genomics and post-genomics.
Lehigh's SEM courses were founded by Joe Goldstein in 1970. More than three decades later, the Lehigh Microscopy School is widely recognized as the largest and best in the world.
The centers mission is to identify, promote and engage in strategic areas of research and education in advanced materials and nanotechnology that meet the needs of industry, government and students.
The interdisciplinary degree courses in nanotechnology at Leibniz Universität Hannover provide extensive training in the field of nanotechnology. The Faculties of Electrical Engineering and Computer Science, Mechanical Engineering, Mathematics and Physics, and Natural Sciences have combined forces to offer this joint programme.
The interdisciplinary degree courses in nanotechnology at Leibniz Universität Hannover provide extensive training in the field of nanotechnology. The Faculties of Electrical Engineering and Computer Science, Mechanical Engineering, Mathematics and Physics, and Natural Sciences have combined forces to offer this joint programme.
The two main research lines within this research program are: models and paradigms for molecular computing, and design of laboratory experiments testing models for molecular computing.
The Kamerlingh Onnes Laboratory has 6 research groups that deal with Atomic and Molecular Conductors, Interface Physics, Magnetic and Superconducting Materials, Quantum Physics of Nanostructured Materials, Quantum Physics and Applications at Ultra Low Temperatures, Granular & Disordered Media, and Physics of Surfaces and Materials.
The Material Physics and Nanotechnology master's programme focuses on the physics of new materials and covers a wide range of materials used in for example semiconductor technology, optoelectronics and biotechnical applications.
CAMD is a high-tech synchrotron research center whose role is to provide equipment, expertise, and infrastructure for research and development in the area of microstructures, microdevices, and recently, nanofabrication.
The core competency of the ‘nanofabrication’ research group is to synthesize variety of nanoparticles, characterize them using X-ray absorption spectroscopy and utilize them to fabricate devices for biomedical applications.
The core competency of the nanofabrication research group is to synthesize variety of nanoparticles, characterize them using X-ray absorption spectroscopy and utilize them to fabricate devices for biomedical applications.
The B.S. in Nanosystems Engineering (NSE) is a four year undergraduate program leading to an ABET accredited engineering degree. This interdisciplinary program was established in 2005 and prepares graduates with the knowledge and skills to integrate basic nanoscale science and engineering fundamentals in order to produce useful technology for society. The program offers students the choice to select an engineering application focus area from biomedical, chemical, electrical, mechanical, or microsystems engineering. The program draws upon the strengths of our unique combination of laboratory resources and interdisciplinary research, education, and support programs.
The Ph.D. in Engineering is an interdisciplinary degree with a strong research emphasis. The program prepares candidates for both academic and industry careers. The PhD Engineering program offers a Micro/Nanotechnology curriculum.
Includes research areas in nanotechnology and biomedical nanotechnology.
The purpose of the degree is train graduate students in experimental, theoretical, and computational aspects of research in molecular biology, chemistry, and physics, particularly where these disciplines intersect, and to prepare graduate students for interdisciplinary or traditional PhD programs in Biochemistry, Chemistry, Materials Science, Molecular Biology, and Physics which emphasize research at the intersections of one or more of the traditional disciplines.
The Ph.D. in Molecular Sciences and Nanotechnology provides a formal framework for students to engage in the study of structures and devices assembled by nature on the one hand, and those assembled by humans on the other.
 
 
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