Nanotechnology Degree Programs

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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.
The Micro/Nano Systems and Technology Graduate Certificate offers a plan of study that focuses on the miniaturization technologies that have important roles in materials, mechanical, and biomedical engineering practice, in addition to being the foundation for information technology.
The Nanoscale Materials Science Graduate Certificate offers an opportunity to acquire the knowledge and skills needed to understand the present and potential applications of these rapidly developing nano-materials technologies.
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.
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.
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.
The Nanoscale Engineering program offers an academically rigorous preparation for students intending to pursue scientific, technical, or professional careers in nanotechnology-enabled fields or graduate studies in nanoscale engineering or nanoscale science, as well as other physical sciences or interdisciplinary sciences such as materials science, physics, biophysics, chemistry or biochemistry.
The bachelor's degree in nanoscale science offers an academically rigorous preparation for students intending to pursue scientific, technical, or professional careers in nanotechnology-enabled fields or graduate studies in nanoscale engineering or nanoscale science, as well as other physical sciences or interdisciplinary sciences such as materials science, physics, biophysics, chemistry or biochemistry.
The Nanoscale Engineering program offers an academically rigorous preparation for students intending to pursue scientific, technical, or professional careers in nanotechnology-enabled fields or graduate studies in nanoscale engineering or nanoscale science, as well as other physical sciences or interdisciplinary sciences such as materials science, physics, biophysics, chemistry or biochemistry.
The MS in Nanobioscience program trains students in the principles, practices, and research paradigms of nanobioscience to prepare them for interdisciplinary careers in research, development, deployment and education at the convergence of medicine and life science with nanoscale science and engineering.
The Nanoscale Engineering program offers an academically rigorous preparation for students intending to pursue scientific, technical, or professional careers in nanotechnology-enabled fields or graduate studies in nanoscale engineering or nanoscale science, as well as other physical sciences or interdisciplinary sciences such as materials science, physics, biophysics, chemistry or biochemistry.
B.Sc. Physics with Nanotechnology Degree Scheme.
This is a one-year course, normally a first- or second-class honours degree, dependent on the area of research, offered at the univrsity's The Multidisciplinary Nanotechnology Centre.
The MRes course consists of a 4-month period of intensively taught modules from October to the end of January, followed by an 8-month period of individual research. There are two streams to the MRes course and students may choose to specialise in either structures or fluids. The MSc course consists of an initial 6- month period of taught modules. This provides a good grounding in computer modelling and in the finite element method, in particular. Following the taught component, students undertake a 6-month period of project work.
The university's Systems and Process Engineering Centre brings together academic expertise from across the University, incorporating state-of-the-art facilities. With their reputation for research in Nanotechnology, Swansea University provides an excellent base for your research as a MSc by Research student in Nanotechnology.
The 1-year, full-time MSc in Nanomedicine involves studying for 120 credits of taught modules.
This course provides students with the knowledge, motivation, and self-learning skills required for continuous professional development during their future careers and provides valuable experience of working on complex projects both as individuals and as team members. The full-time scheme lasts for 12 months and consists of two taught semesters (Part I), followed by a three-month period of individual research (Part II) during the summer.
The interdisciplinary curriculum is centred on mechanical and electrical engineering courses of importance for micro and nanosystems engineers, complemented by courses in physics, chemistry, biology, material science, computational science, business administration and management.
The Master of Advanced Studies (MAS) is the only title recognized by the confederation for postgraduate studies at the master level in the natural and engineering sciences. The Master of Advanced Studies is euro compatible.
Ziel des Studiengangs ist es, die naturwissenschaftlichen und technologischen Grundlagen fü?r die Erzeugung von Mikro- und Nanostrukturen zu vermitteln und die Studenten innerhalb der Studienrichtung zu befähigen, zukünftige Entwicklungen zu Mikro- und Nanotechnologien sowie nanotechnischen Systemen voranzutreiben.
The program Molecular Bioengineering aims to teach students the fundamentals in biomedicine and bio-nanotechnology combining biology and technology, which are linked in two ways: On the one hand, biological knowledge on cells is applied to develop the notion of molecular factories; on the other hand, nanotechnology and bioinformatics are enabling technologies applicable to engineer biomaterials for medical applications.
The 2-year master program aims to teach students the fundamentals in biophysics and bio-nanotechnology with a twofold aim: to use nanotechnological approaches to better characterize and understand complex molecular machines such as biomolecules, but also to harness these molecules in technological systems or use them as templates or model systems for a bottom-up nanotechnology.
The Master's Program in Organic and Molecular Electronics is designed to provide students with professional skills needed to advance a successful international career in the cutting edge field of organic electronics. It offers an interdisciplinary study program comprising physics, chemistry, electrical engineering and materials science. The close collaboration with industry partners enables a highly practice-oriented education. Moreover, we strongly focus on developing soft skills required in an everyday professional lives of our future graduates, such us project management, patent law, and much more.
The following Technion academic units participate in this interdisciplinary program: Mechanical Engineering, Electrical Engineering, Chemical Engineering, Biotechnology and Food Engineering, Physics, Chemistry, Biology, Medicine, Materials Engineering and Bio-medical Engineering.
The following Technion academic units participate in this interdisciplinary program: Mechanical Engineering, Electrical Engineering, Chemical Engineering, Biotechnology and Food Engineering, Physics, Chemistry, Biology, Medicine, Materials Engineering and Bio-medical Engineering.