Nanosystems and nanotechnologies (176 Micro and nanosystem technology)
Тип: Нормативний
Кафедра: department of sensory and semiconductor electronics
Навчальний план
| Семестр | Кредити | Звітність |
| 9 | 4.5 | Іспит |
Лекції
| Семестр | К-сть годин | Лектор | Група(и) |
| 9 | 16 | професор Galiy P. V. | ФеMм-12 |
Лабораторні
| Семестр | К-сть годин | Група | Викладач(і) |
| 9 | 32 | ФеMм-12 | професор Galiy P. V. |
Опис навчальної дисципліни
The course is devoted to the study of electronic processes in quantum-dimensional systems of reduced dimensionality. The basic technologies of obtaining nanosystems of reduced dimensionality – quantum nanodots (0D), nanofibres (1D) and nanofilms (2D), in which quantum-dimensional effects occur, on nanostructured surfaces are considered. The course studies the features of the electronic energy
structure and density of electronic states, kinetics of charge transfer (ballistic run) and quantum-dimensional features in nanosystems of reduced dimensionality. Various methods of obtaining nanosystems and nanostructures of different dimensions are considered, with a focus on hetero- and homoepitaxy, deposition of materials from molecular beams (MEB), nanorelief formation using scanning tunneling and atomic force microscopes, and methods of synthesis of nanocrystalline materials.
The aim of the discipline is to master the basic technologies for obtaining and studying nano-objects of reduced dimensions – 0D, 1D, 2D and features of their electronic and energy structure. Distinguish between the concepts of nano-objects and objects of reduced dimensionality. The basic methods of synthesis of nanostructures of different dimensions, using hetero- and homoepitaxy, deposition of materials from ion-molecular beams. Know the basic methods of studying nanosystems – STM/CTC, AFM, their electronic energy structure and density of electronic states.
Рекомендована література
- 1. Zayachuk D.M. Nanotechnology and nanostructures: a textbook / D.M. Zayachuk – Lviv: Lviv Polytechnic National University Publishing House, 2009. 580 p.
- 2. Zayachuk D.M. Nanoscale structures and superlattices / D.M. Zayachuk: Lviv Polytechnic National University Press, 2006. 220 p.
- 3. Poplavko Y. M. Nanophysics, nanomaterials, nanoelectronics: a textbook / Y. M. Poplavko, O. V. Borisov, Y. I. Yakymenko – Kyiv: NTUUkraine KPI, 2012. – 300 p.
- 4. Borovyi M.O. Introduction to nanoelectronics / M.O. Borovyi,
Kunytskyi Y.A., Kuryliuk V.V. Introduction to nanoelectronics. ⎯ Kyiv: Kafedra, 2013.
⎯ 256 с. - 5. Fundamentals of nanoelectronics. Textbook in 2 books / Y. I. Yakymenko [et al: Materials, technologies and functional devices. 350 p.
- 6. Strebezhev V.M. / Fundamentals of submicron and nanotechnology: a textbook. part 1 / V.M. Strebezhev, I.M. Yuriychuk. ⎯ Chernivtsi: Yuriy Fedkovych Chernivtsi National University, 2021. ⎯ 120 с.
- 7. Nanomaterials, nanotechnologies, nanodevices: a textbook / M. Borovyi [et al. Kyiv: Interservice, 2015. 350 p.
- 8. Savchyn V. P. Chapter 9. Quantum-dimensional structures in photoelectronics / V. P. Savchyn, I. I. Izzhin, M. M. Vakiv // Semiconductor photoelectronics. – Lviv, 2010. – P. 728.
- 9. Tretiak O.V. Physics of low-dimensional systems: a textbook / O.V. Tretiak, V.Z. Lozovsky. ⎯ Kyiv: Kyiv University Press, 2013. ⎯ 372 с.
- 10. Borisenko V. E. What is what in the nanoworld: a handbook on nanoscience and nanotechnology / V. E. Borisenko, S. Ossicini. – 2nd ed. – Berlin: Wiley-VCH, 2008. – 522 p.
- 11. Nanoelectronics and photonics: from atoms to materials, devices and architectures / ed. by A. Korkin, F. Rosei. – Berlin: Springer, 2008. – 453 p.
- 12. Mitin V. Introduction to nanoelectronics science, nanotechnology, engineering, and applications / V.V. Mitin, V.A. Kochelap, M.A. Strosci. – Cambridge: Cambridge University Press, 2012. – 346 p.
- 13. Nanoelectronics and information technology advanced electronic materials and novel devices / ed. by R. Waser. – 3rd ed. – Berlin: Wiley-VCH, 2012. – 1040 p.
- 14. Chekman I.S. English-Ukrainian Dictionary of Nanoscience / I.S. Chekman, S.O. Radzievska. Kyiv: Zadruha, 2013. 296 p.