Infopaket

Molecular nanoplasmonics

ДВС.2.01.01

Вибіркова дисципліна для ОП

Second

2023/2024

3 Semester

3

The ability to build adequate models of chemical phenomena, to study them for obtaining new conclusions and deepening of understanding of nature, including using methods molecular, mathematical and computer modeling. Ability to organize, plan and implement a chemical experiment. The ability to interpret, objectively evaluate and present the results of one's work research. The ability to formulate new hypotheses and scientific problems in the field of chemistry, to choose directions and appropriate methods for their solution based on an understanding of modern issues research in the field of chemistry and taking into account the available resources. The ability to choose optimal research methods and techniques. Possession of the general methodology of carrying out scientific research.

Successful completion of the courses "Fundamentals of Higher Mathematics", "Fundamentals of Physics"

introducing students to the main plasmonic processes and phenomena in nanoscale metal and semiconductor structures and mastering them with knowledge of research methods and practical use physical phenomena and effects in such structures. There is a course "Nanoplasmonics". a discipline that will be useful for further application of the methods applied physics and, in particular, plasmonics to the improvement of control methods and impact on processes in biochemical objects, including living cells, viruses and bio-organic molecules. Studying this discipline will enable students learn practical skills of studying complex physical processes in real ones systems of molecular nanoplasmonics.

1. Dmytruk N.L., Lytovchenko V.G., Stryzhevsky V.L. Surface polaritons in semiconductors and dielectrics. - K.: Naukova dumka, 1989. - 376 p. 2. Dmitruk N.L., Goncharenko A.V., Venger E.F. Optics of small particles and composites media. - K.: Naukova dumka, 2009. - 386p. 3. V.V. Klimov Nanoplasmonics. - M.: FIZMATLYT, 2009. - 480 p. 4. Elyashevich M.A. Atomic and molecular spectroscopy. Ed. 2e. - M.: Editorial URSS, 2001. – 896 p. 5. Volodymyr Chegel, Andrii Lopatynskyi. Molecular

lectures, practical

A student can receive a maximum of 60 points for completing homework, independent tasks, oral answers, tests, additions in practical classes (30 points each in each content module). Modular control: 2 modular control works (MCR). The final semester control is conducted in the form of an exam (40 points). Examination the ticket includes 2 theoretical questions (20 points each).

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