28.03.01 Nanotechnologies and Microsystem Engineering

The "Semiconductor Micro- and Nanosystems" profile equips you with the knowledge and skills to design, develop, and manufacture the next generation of microelectronic devices and systems, driving advancements in areas like computing, communications, healthcare, and energy.

Key program features:

• Deep Dive into Semiconductor Technology: Gain a strong foundation in the principles of semiconductor physics, device fabrication, and the design of micro- and nanoscale devices.
• Micro- and Nanosystems Engineering: Learn the fundamentals of micro- and nanosystems engineering, including the design and fabrication of microfluidic devices, sensors, actuators, and other microsystems.
• Advanced Nanotechnology: Explore the exciting world of nanotechnology, delving into topics like nanomaterials, quantum dots, and graphene, understanding their unique properties and potential applications.
• Practical Skills Development: Gain hands-on experience in state-of-the-art laboratories, mastering techniques like microfabrication, thin-film deposition, and characterization of micro- and nanoscale devices.
• Industry Collaboration: Engage with industry partners, participating in research projects and gaining valuable real-world experience.

Graduates of this program are highly sought after by companies and research institutions working at the cutting-edge of semiconductor and nanotechnology, pursuing rewarding careers in:

• Microchip Design and Development: Design and develop advanced integrated circuits for diverse applications, including microprocessors, memory chips, and sensors.
• Micro- and Nanosystems Engineering: Design and develop innovative micro- and nanoscale devices and systems for a wide range of fields, including healthcare, energy, and environmental monitoring.
• Materials Science and Engineering: Research and develop new materials for use in micro- and nanosystems, contributing to breakthroughs in semiconductor technology.
• Research and Development: Pursue a career in research and development, pushing the boundaries of semiconductor and nanotechnology.

• Information technologies in professional activity
• Information technologies and programming basics
• Quantum and optical electronics
• Quantum mechanics and statistical physics
• Components of electronic equipment
• Materials science of nanostructured materials
• Materials and Methods of Nanotechnology
• Materials of microsystems technology
• Materials of electronic engineering
• Methods of analysis and control of nanostructured materials and systems
• Methods of mathematical modeling
• Methods of mathematical physics
• Metrology, standardization and certification
• Microprocessor devices
• Microelectromechanics
• Fundamentals of design and production technology of electronic devices
• Fundamentals of electronic component base design
• Applied Mechanics
• Software tools of professional activity
• Design activity
• Special chapters of solid state electronics
• Circuit Engineering
• Solid State Electronics
• Technology of micro- and nanosystems components
• Condensed State Physics
• Semiconductor Physics
• Physics of semiconductor devices
• Physico-chemical bases of micro- and nanotechnology processes
• Physical bases of micro- and nanosystems technology
• Elements and devices of nanoelectronics