Electronic processes in nanoscale systems (176 – Micro- and nanosystems engineering)
Type: Normative
Department: physical and biomedical electronics
Curriculum
Semester | Credits | Reporting |
10 | 7 | Exam |
Lectures
Semester | Amount of hours | Lecturer | Group(s) |
10 | 32 | Associate Professor Bihun R. I. | ФеMм-11, ФеMм-12 |
Laboratory works
Semester | Amount of hours | Group | Teacher(s) |
10 | 32 | ФеMм-11 | |
ФеMм-12 |
Опис навчальної дисципліни
The course “Electronic Phenomena in Nanoscale Systems” is one of the core courses in the training of students of technical and engineering specialties. Without a thorough knowledge of charge transfer phenomena in nanoscale systems and metal condensates, future full-fledged professional activities in mathematical modeling, engineering design, development and diagnostics of the element base of micro- and nanosystems, etc. are impossible. The laws and phenomena of nanoscale physics are the basis of modern micro and nanoelectronics, the foundation for various fields of science and technology. Studying them during lectures and laboratories expands cognitive and engineering skills and allows you to master many other important courses at the Faculty of Electronics.
The laboratory workshop on the course “Electronic Phenomena in Nanoscale Systems” for students of the Faculty of Electronics and Computer Technologies is an important foundation for acquiring skills in working with equipment based on modern microelectronics devices, provides information on methods of studying physical phenomena, and lays the groundwork for independent scientific work.
Recommended Literature
- 1. Poplavko Y. M., Borisov O. V., Ilchenko V. I.. Microelectronics and nanoelectronics. Introduction to the specialty: textbook. K.: NTUU “KPI”, 2010. 160 с. Bibliography: p.157.
- 2. Suslikov L.M., Dyordiay V.S. Physics and Technology of Nanomaterials: a textbook for students of physical and technical specialties: Hoverla Publishing House, 2023. 437 p.
- 3. Pogosov V.V., Kunytskyi Y.A., Babich A.V., Korotun A.V., Shpak A.P. Nanophysics and Nanotechnology / Textbook (with the stamp of the Ministry of Education and Science of Ukraine), Zaporizhzhia: ZNTU, 2011. 368 с.
- 4. Koman B.P.. Functional elements of information systems based on semiconductor electronics: a textbook. Lviv: Ivan Franko National University of Lviv, 2018. 794 с.
- 5. Bondarenko I.M. Modern component base of electronic systems. Study guide. Kharkiv, NURE: 2020.- 268с.
- 6. Melnyk O.S. Components of micro- and nanoelectronics. Lecture notes. – K.: Department of Electronics of the IAS NAU, 2013. -191 с.
https://elartu.tntu.edu.ua/handle/lib/42846. - 7. Massimiliano di Ventra. Electrical Transport in Nanoscale Systems. 2008. Cambridge University Press. The Edinburgh Building, Cambridge CB2 8RU, UK. Published in the United States of America by Cambridge University Press, New York.
https://api.pageplace.de/preview/DT0400.9780511421624_A23678240/preview-9780511421624_A23678240.pdf - 8. Vakarchuk I.O.. Quantum mechanics. Third edition, supplemented. Textbook. Ivan Franko National University of Lviv. 2007. 848 с.
- 9. Sh. Mostufa, Sh. Liang, V. Kumar Chugh, J.-P. Wang & K. Wu. Spintronic devices for biomedical applications. Review article.” npj Spintronics, 2:26 (2024). https://doi.org/10.1038/s44306-024-00031-6