28.04.01 Nanotechnology and microsystem engineering

• Academic foreign language course
• Information technologies in nanoelectronics and microsystem engineering
• Commercialization of research and development results
• Micro- and nanotechnology processes
• Current problems of nanotechnology and microsystem engineering

The basic part (variable):

• Interdisciplinary project
• The interaction of radiation with matter
• Physics and technology of low-dimensional systems
• Probe nanotechnology
• Plasma processes of nanotechnology
• Lasers in nanotechnology
• Electron and ion beam technologies

Elective subjects:

• Functional optoelectronics
• Quantum and optical devices
• Technology of microelectromechanical systems
• MICROWAVE ECB design and technology
• Micro- and nanosystems in engineering and technology
• Digital VLSI

Online courses and courses from leading universities:

• Nanocomposites for Photonics (eNano, together with ITMO)
• Innovative Economy and Technological Entrepreneurship (RVK)
• Global Advanced Technology Entrepreneurship (ITMO, Russian/English)

The educational program is aimed at training world;class specialists focused on continuing their postgraduate studies or working in research centers and research departments of companies related to the development and production of electronics and photonics - the driving force of scientific and technological progress in the 21st century. The demand for graduates of our program, who successfully continue their careers in leading scientific and industrial centers in Russia, the USA, France, Germany, the Netherlands, Japan, Singapore and China, indicates a high level of training and the prospects of the proposed program. This program allows students to choose the most interesting areas for them. Modern research and production infrastructure allows not only to gain skills in working with high-tech equipment, but also to conduct research and development, as they say, at the forefront of science already in the learning process under the guidance of leading scientists and specialists. Comprehensive support of leading scientists and specialized specialists. Direct participation in fundamental and applied research of national and world level, supported by projects and programs of leading scientific and industrial foundations and organizations (RNF, FPI, FSI).

Graduates are in demand at all stages of the creation of modern electronics — from scientific research to mass production.
The possibility of continuing postgraduate studies on current research topics at the University. The possibility of continuing postgraduate studies on current research topics in leading research centers in Russia and abroad.
Current career opportunities exist in areas such as:

• Electronics/semiconductor industry
• Materials science including textiles, polymers, packaging, with microfluidic device
• Auto and aerospace industries
• Sporting goods
• Biotechnology
• Computing
• Medical fields and pharmaceuticals
• Environmental monitoring, control, and remediation Food science including quality control & packaging
• Agriculture
• Forensics
• Geosciences
• Microscopy
• University and federal lab research
• Military and national security
• Energy capture and storage

The Master's degree program "New Materials and Technologies of Nanosystems" trains research engineers who work at the cutting edge of micro- and nanoelectronics.
Work in research positions in leading scientific and educational centers of Russia and abroad, including with the possibility of combining postgraduate studies. Work at the enterprises of the radio-electronic complex of the country. Work at the enterprises of the military-industrial complex of the country. Here are some key duties and responsibilities of a Nanosystems Engineer: Design, develop and build nanosystems and devices according to project requirements Conduct research on nanotechnology theories, techniques, and applications Collaborate with scientists and engineers to develop new methods for manipulating matter at the nanoscale Develop mathematical models and computer simulations to test the efficacy of nanosystems Analyze the behavior and properties of nano-sized components Perform tests on nanosystems to ensure they meet specified standards and requirements Document all processes and results of the nanosystem development for future references Stay updated with latest advancements in nanotechnology and integrate them in current and future projects Communicate research findings to scientists, engineers, and other stakeholders Ensure adherence to safety procedures and guidelines when working with nanomaterials