Infopaket

Scientific seminar on nanophysics

ВК 1.14.

Вибіркова дисципліна для ОП

First

2023/2024

8 Semester

3

1. Know basic physical properties of one-, two- and three-dimensional materials and their ap-plication in nanotechnology 2. Know the basic manufacture technologies of nanostructures and nanoelectronics devices 3. Know modern experimental methods of diagnosing the state and researching the properties of low-dimensional materials and structures 4. Skills in using knowledge about the physical properties and energy structure of nanosystems and nanomaterials for their optimal use in development of nanoelectronics devices and nano-technologies 5. Analyze and compare physical models of nanostructured materials, verify the correctness of their application

Student must know: basic laws, equations, and relations of the general physics course, the quantum mechanics course, the differential equations and probability theory course, and the physics and nanoelectronics fundamentals course. Student must be able to: create physical models of real systems within the concepts of quantum physics, solve basic equations, identify basic approximations for the practical solution of these equa-tions by both analytical and numerical methods.

The main technological aspects of manufacturing nanomaterials and devices are studied, as well as modern experimental methods of diagnostics and research of the properties of nanomaterials and nanostructures. The main types of nanostructures of different dimensions are considered: quantum dots, clusters, fullerenes, nanotubes, thin-layer and porous nanostructures and nanocomposites. A detailed analysis of the influence of technological processes on their physical properties and applica-tion for the creation of modern nanoelectronics devices and other high-tech solutions is carried out

1. Ю.М. Поплавко, О.В. Борисов, Ю.І. Якименко, Нанофізика, наноматеріали, наноелектроніка. – К.: НТУУ «КПІ», 2012. 2. Handbook of Nanophysics. Clusters and Fullerenes. Ed. by Klaus di Sattler. CRC Press, 2011 3. Handbook of Nanophysics. Nanoparticles and Quantum Dots. Ed. by Klaus di Sattler. CRC Press, 2011 4. Handbook of Nanophysics. Functional Nanomaterials. Ed. by Klaus di Sattler. CRC Press, 2011 5. О.В. Третяк, В.З. Лозовський, Фізика низьковимірних систем, К. : Видавничо-поліграфічний центр "Київський університет", 2013 6. Nanomaterials, Interface Studies, and Applications : Selected Proceedings of the 3th Internation-al Conference Nanotechnology and Nanomaterials (NANO 2016), August 24-27, 2015, Lviv, Ukraine, Ed. By Olena Fesenko, Leonid Yatsenko, Springer, 2016

Teaching takes place in the form of seminars, for which students prepare and present reports on selected scientific topics. During the semester, presentations on two topics chosen by the student (oral form) and a final assessment are planned.

The academic semester has two substantive modules. During the semester, each student presents two reports with a minimum score of 18 points and a maximum score of 30 points for each one. The assessment form is written and oral. The ticket consists of 2 questions, each question up to 20 points. In total, you can get from 0 to 40 points for the credit. A condition for achieving a positive grade for a discipline is to obtain at least 60 points, the grade for credit cannot be less than 24 points

Ukrainian