Infopaket

Special scientific seminar on physics of nanosystems

ВБ 4.2

Вибіркова дисципліна для ОП

Second

2023/2024

4 Semester

3

To acquire knowledge of the basics of methodology, organization of research, and the basics of intellectual property. To possess the ability to present the results of their research at scientific conferences and seminars, and to practically use a foreign language (primarily English) in scientific activities.

Full-time form

1. To know the basic issues of physics of low-dimensional structures: general provisions of the physics of of nanosystems; basic modern ideas of nanocomposite nanotechnologies, application of ceramic and metal nanosystems in practical devices; 2. To be able to work independently with sources of educational and scientific information; learn and master new knowledge in the physics of nanosystems and related fields; logically and consistently formulate the basic laws of physics of nanosystems; 3. To have basic skills of independent search for necessary information in printed and electronic sources, in order to analyze, systematize, understand, interpret and use it for solving scientific and applied problems of physics of nanosystems.

The educational task of the course is to master the essence of scientific research in the field of nanosystems physics and the ability to correctly formulate the object, subject, and objectives of scientific research; correctly analyze the data of the master's research; to teach students to focus on a specific scientific topic, to present it to the audience, to be able to defend the acquisition of knowledge and to answer questions. Teaching methods: seminars. Assessment methods: surveys in the course of seminars, preparation of reports on the physics of nanosystems on the topic of scientific research, on the current results of scientific master's research. The final grade is set based on intermediate grades (60%) and the final test (40%).

1. Stechenko D.M. et al. Methodology of Scientific Research: Textbook. - K .: Knowledge, 2005. - 309 p. 2. Mokin B.I., Mokin O.B. Methodology and organization of scientific research. - Vinnytsia: VNTU, 2014. - 180 p. 3. Borovy M.O., Kunitsky Yu.A., Kurilyuk V.V. Introduction to nanoelectronics - K .: "Department", 2013. - 256 p. 4. Shpak A.P., Kunitsky Yu.A., Korotchenkov O.O., Smyk S.Yu. Quantum low-dimensional systems. - Kyiv: Akademperiodika, 2003. - 312 p. 5. Gab A.I., Shakhnin D.B., Malyshev V.V. Nanomaterials: classification, production technologies, special properties, basic research methods and directions of application. - Kyiv: University "Ukraine", 2020. - 235 p.

Seminars - 30 hours. Self-study - 60 hours.

Semester assessment: (max/min) Survey during classes, preparation of reports on the physics of nanosystems - 60 points / 36 points The test is made in writing. The maximum number of points that can be obtained by a student during the test is 40. To obtain an overall positive grade in the discipline, the grade for the test may not be less than 24 points. A student is not admitted to the test if he / she scored less than 36 points during the semester.

Ukrainian