Educational and professional program with an orientation towards the development and application of new materials, elements and micro- and nanoelectronic systems for electronics, solar energy and electronic protection elements, with a focus on physical approaches and methods. The program includes the study of the basics of materials physics, properties of semiconductors, piezoelectrics and nanomaterials, skills in the development of micro- and nanoelectronic systems, modeling, manufacturing, research and operation.
The program focuses on: solar energy, where solar energy systems, photovoltaic cells and energy storage technologies are studied; and electronic protection of embedded systems from electromagnetic interference, and the influence of electromagnetic interference on functional materials, designs of electronic protection elements, and principles of creating protected electronic systems are studied.
The focus of the educational and professional program is aimed at providing modern theoretical and practical knowledge to form competencies in the applicant for the development, application, research and operation of new materials and devices of micro- and nanoelectronics for solar energy and embedded systems, development, application, research and operation based on micro- and nanoelectronics materials of elements of electronic protection of embedded systems from electromagnetic interference.
Required:
General training (GP):
GP1. Innovative entrepreneurship and startup project management
GP2. Intellectual property
GP3. Foreign language for professional purposes
Special (professional) training (SP):
SP1. Experimental engineering in electronics
SP2. Computer modeling of physical and technological processes
SP3. Physical properties and methods of studying device structures
SP4. Technologies for synthesizing device structures and protection elements
SP5. Functional materials for electronic protection and solar energy elements
Practical training:
PP1. Pre-diploma practice
AT. Certification
Selective:
Professional training (OKVP):
OKVP1. Design of micro- and nanosystems technology
OKVP2. Micro- and nanoelectronics products
OKVP3. Semiconductor photovoltaic converters
OKVP4. Development of the latest structural and technological solutions and methods of certification of electromagnetic radiation energy converters
OKVP5. Film optoelectronic device structures
OKVP6. Optical methods for controlling multilayer nanostructures
OKVP7. Modern methods of manufacturing device nanostructures
OKVP8. New magnetic semiconductor materials and devices
OKVP9. Structure and properties of amorphous, nano- and quasi-crystalline materials
OKVP10. Technologies of film materials for medical purposes
OKVP11. Physics of low temperatures and nanotechnologies
OKVP12. Semiconductor nanostructures
OKVP13. Telecommunication systems
OKVP14. Microprocessor technology
OKVP15. Radio receiving devices in radio physics
General training (OKZP):
OKZP1. Ethno-linguistic processes in Ukraine
OKZP1. History of Culture of Slobidskoi Ukraine
OKZP1. History of Ukrainian Statehood
OKZP2. Psychology of Leadership in Business
OKZP2. Psychology of leadership in education
OKZP2. Fundamentals of professional psychology
OKZP3. Legal regulation of innovation activities
OKZP3. Information Law
OKZP3. Copyright and Related Rights
2024:
Minutes of the project group meetings:
Review University of Pittsburgh, USA (Serhiy Frolov)
Review of Myrenergocom LLC (Mykhailo Ryzhko)
Review of “Normatech Group” LLC (Hennadiy Rudenko)
Review of a student of the IKM-M423 group (Artem Barsukov)
Review Tulane University, USA (Denis Bondar)
2023:
Minutes of the project group meetings:
Head Department:
Prof. Zaitsev Roman Valentinovich
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