SUNY Polytechnic Institute – Master of Science in Nanoscale Engineering
SUNY Polytechnic Institute – Master of Science in Nanoscale Science
SUNY Poly’s Nanoscale Science program provides the critical theoretical and experimental skill base and know-how for knowledge creation in the areas of nanoscale materials, structures, and architectures. Read More…
Arizona State University – MA program: Applied Ethics (Ethics and Emerging Technologies)
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. Read More…
Arizona State University – Professional Science Master Program in Nanoscience
The Professional Science Master’s (PSM) in Nanoscience degree program consists of interdisciplinary courses that provide a knowledge base required for full appreciation of research and innovation in Nanoscience and Nanotechnology. Students may choose courses in physics, chemistry and biochemistry, materials science, engineering, biotechnology and intellectual property and innovation. Read More…
Johns Hopkins University – Nanotechnology Option for the Masters in Materials Science and Engineering
The curriculum in the Materials Science and Engineering program at Johns Hopkins Engineering for Professionals takes a close look at the connections between materials’ structure and performance, how particular properties can be achieved through state-of-the-art processing, and how newly engineered materials can be used in modern technologies. Read More…
Joint School of Nanoscience and Nanoengineering – Master of Science in Nanoengineering
The Master of Science in Nanoengineering degree program is a research Master?s degree, featuring coursework involving engineering at the nanoscale. It is designed for students with a strong background in engineering who seek additional, specialized training in order to find industrial or government positions in fields that utilize nanotechnology. Qualified applicants will have an engineering degree and as a minimum, will have completed mathematics courses through differential equations. Read More…
Joint School of Nanoscience and Nanoengineering – Master of Science in Nanoscience
The 33-hour, non-thesis MS in nanoscience follows the Professional Master of Science degree model, featuring course work in nanosciences and business and an internship to provide practical experience. It is designed for students with strong backgrounds in technical fields who seek additional specialized training to qualify them for positions in companies that work in the field of nanotechnology. Read More…
Louisiana Tech University – Master of Science in Molecular Sciences and 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. Read More…
North Carolina State University – Master of NanoEngineering
The degree program will hold classes on campus, but will also be the first master’s degree program in nanoengineering that is offered via online distance education – making the program available to students who are already in the workforce. The program will also offer concentrations in biomedical science in nanoengineering, materials science in nanoengineering, and nanoelectronics and nanophotonics. Read More…
North Dakota State University – Master of Science in Materials and Nanotechnology
The Materials and Nanotechnology Program at North Dakota State University is an interdisciplinary Graduate Program spanning several Colleges and Centers, but sustained primarily by the College of Science and Mathematics, the College of Engineering and Architecture, and the Center for Nanoscale Science and Engineering. Both PhD and Master’s degrees are offered. Read More…
Radiological Technologies University VT – Master of Science in Nanomedicine
This program provides students with the knowledge, motivation, and self-learning skills required for continuous professional development along with complex project experience and problem solving. Our goal is that these students use their potential to become future leaders and champions of nano health. Students will have the option of having a primary or dual program focus. A dual focus would have an additional emphasis on Medical Physics. Read More…
Rice University – Professional Master of Science in Nanoscale Physics
This program prepares students for a career in nanoscience by combining a strong component in quantum theory, which governs the behavior of systems at the nanoscale, with the study of practical nano- and mesoscale devices. This provides the student with the knowledge required to successfully navigate the emerging field of nanoscale science and nanotechnology. Unlike traditional master’s degrees, this degree combines an interdisciplinary curriculum with business training and hands-on experience via a three to six month internship giving graduates a new ‘tool-set’ for success in a business environment. Read More…
Rice University – Professional Science Master Nanoscale Physics/MBA Joint Degree
The worlds of science and business are merging and a new breed of scientist, manager and policy maker is emerging. These new professionals are PSM graduates who can serve companies in today’s competitive market needing managers with scientific knowledge who understand the business world and can effectively lead by applying their unique background to their organization’s needs. In response to these needs, the Wiess School of Natural Sciences established the Professional Master?s Program, offering a degree in Nanoscale Physics. Read More…
Singapore-MIT Alliance – M.Eng. Advanced Materials for Micro- and Nano-Systems
The SMA programme in AMM&NS provides a unique and innovative educational opportunity for graduate students interested in careers in industry and research. Through a combination of cutting-edge research and a sound understanding of the principles of materials, graduates are poised to accept high-level positions as leaders in development of electronic, electromechanical, magnetic, photonic, and biomedical devices and systems, especially those based on integrated systems of micro- and nano-scale devices. Read More…
Stevens Institute of Technology – Master of Engineering with Nanotechnology Concentration
Stevens Institute of Technology – Master of Science with Nanotechnology Concentration
Participation in the Nanotechnology Graduate Program leads to Masters of Science, Masters of Engineering, and Doctor of Philosophy in the respective disciplines with a designated nanotechnology concentration. To qualify for the nanotechnology concentration, in addition to satisfying disciplinary core requirements, candidates for Masters’ degrees must complete the common core and a minimum of three elective courses and should attend regularly the seminar series in the Nanotechnology Curriculum. Read More…
University of California, Riverside – Master of Science in Chemical Engineering with Nanotechnology Concentration
The Graduate Program offers training leading to the degrees of M.S. and Ph.D. in Chemical and Environmental Engineering. Taking advantage of the complementary skills and expertise of the faculty, our graduate students pursue interdisciplinary and often collaborative research at the frontiers of chemical and environmental engineering. One of the main research areas includes Advanced Materials and Nanotechnology. Read More…
University of California, San Diego – Master of Science in Nanoengineering
The Department of NanoEngineering (NE) offers the M.S. degree in NanoEngineering with a new, unique curriculum centered on our strong research position in nano-biomedical engineering and nanomaterials synthesis and characterization activities. The NanoEngineering Graduate Program provides a focus on underlying scientific, technical and engineering challenges for advancing nanotechnology in the controlled synthesis of nanostructured materials, especially for biomedical, energy, and environmentally-related technologies. Read More…
University of Central Florida – Master of Science in Nanotechnology
The Master of Science in Nanotechnology program provides students with scientific knowledge and research training in nanoscience and nanotechnology. The program prepares students for seeking employment in industry and academia involved in nanotechnology research, product development and commercialization, or to pursue advanced Ph.D. degrees in related areas. Read More…
University of New Mexico – Master of Science in Nanoscience and Microsystems
UNM’s interdisciplinary NSMS degree program is offered jointly by the College of Arts and Sciences and the School of Engineering evolving from the traditional disciplines of solid state physics, chemistry, biology, materials science and engineering. The Nanoscience and Microsystems Program highlight three technical thrusts: Informational Nanotechnology, Nano-Bio Interfaces and Complex Functional Systems. Read More…
University of Pennsylvania – Master of Science in Nanotechnology
The Master’s degree in Nanotechnology prepares students for this profession with a solid foundation in the three technical core areas: Nanofabrication, Devices and Properties, and Biotechnology; as well as Commercialization, and Societal Impacts of Technology. Read More…
University of Texas at Austin – Master of Science in Engineering – Nanomaterials Thrust
The multidisciplinary Nanomaterials Thrust is focused on the study of matter at dimensions of roughly 1 to 100 nanometers. Nanomaterials are currently used in a wide array of applications including in bumpers on cars, paints, and coatings to protect against corrosion, protective and glare-reducing coatings for eyeglasses and cars, metal-cutting tools, sunscreens and cosmetics, tennis balls, tennis racquets, stain-free clothing, burn and wound dressings, inks, and automotive catalytic converters. In the future, it is anticipated that nanomaterials will allow major advances in high energy density rechargeable batteries, improved low cost solar cells, commercially viable fuel cells, more energy efficient catalysts, high strength structural materials for aerospace applications, faster and more efficient semiconductor electronics, and improved methods for treating diseases by targeting diseased tissue. Read More…