The Master of Nanoscale Engineering offers you the opportunity to explore this challenging field in a stimulating scientific and cultural environment. The program is dedicated to a multidisciplinary and international approach and it is suited equally well for students planning an academic or an industrial career. The two-year curriculum provides both the theoretical basis and the practical expertise in all fields related to the fabrication, the characterization and the design of nanoscale structures and systems.
Three European universities - Grenoble INP, Politecnico di Torino and Ecole Polytechnique Fédérale Lausanne - have set up a joint 'Master's Degree in Micro and Nanotechnology for Integrated Systems'. This is a versatile degree course, given primarily in English and dedicated to micro and nanotechnology. It relies on the complementary skills of these three leading European universities, in training and research in the sphere of micro and nanotechnology.
The graduate program in Micro and Nanotechnology is a joint interdisciplinary program of the following Departments: Biological Sciences, Chemistry, Physics, Chemical Engineering, Electrical and Electronics Engineering, Engineering Sciences, Metallurgical and Materials Engineering, Mining Engineering and Mechanical Engineering.
This internationally recognized Master of Science (M. Sc.) course of study offers students of the natural sciences an advanced degree coupled with practical experience. The Course of Study may be completed in three semesters of full-time study or over a longer period of time for students whose professions only permit part-time study.
This program focuses on the high impact emerging field of Nanoscience and Technology. You will attend lectures and labs on Nanomaterials processing, fabrication and characterization as well as modeling and simulation of such materials and systems.
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.
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 Masterís degrees are offered.
The 5-year programme is supported on a solid foundation of courses within physics, chemistry and mathematics. These are combined with courses in electronics and materials science that are oriented towards technology to give a good grounding for further studies in nanotechnology. The programme provides the theoretical basis and knowledge of experimental methods and technological applications of nanotechnology. The social implications of nanotechnology pertaining to ethical and environmental issues are also addressed. The first two years are common for all students in the programme. In the last three years, students choose their main profile from key areas relating to research, business and industry.
Der Studiengang vermittelt Kenntnisse und Fähigkeiten in der Herstellung, Prüfung, Verarbeitung und Verwendung von Werkstoffen, z.B. von Metallen, Kunststoffen, Nichtmetallisch-Anorganischen Werkstoffen und Werkstoffen der Verbund- und Nanotechnologie.
This Master of Science programme is taught entirely in English to stimulate the student in acquiring greater familiarity with the terminology used internationally. The objective of the programme is to prepare a professional figure expert in materials and in the design of processes and manufactured goods. Within the scope of the study plan a number of specific specialisations are foreseen: Surface Treatements Engineering; Polymer and Composite Engineering; Nanotechnologies; Materials Design.
The aim of this course is to develop a professional as requested by industries with advanced technologies. A graduate in micro and nanotechnologies can develop methods and products to increase know-how and competitiveness of European industries with advanced technologies, especially in the information technologies field.
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.
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.
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.
The main aim of the Master's Degree is to provide students with solid, interdisciplinary training that will make it possible to respond to the challenges of scientific and technological development. Students will learn about new tools for fabricating, nanohandling and characterizing materials, devices and systems of nanometric size that are necessary for undertaking experimental work.
Der interdisziplinäre Studiengang Mikrotechnologie und Nanostrukturen kombiniert Grundlagen der Physik mit den Ingenieurwissenschaften mit dem thematischen Schwerpunkt Miniaturisierung. Dem fächerübergreifenden Systemgedanken wird dabei besondere Bedeutung beigemessen.
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.
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.