Fundamentals of Рhysical and Nanoelectronics

Course: Applied physics, nanoelectronics and computer technology

Structural unit: Faculty of Radiophysics, Electronics and Computer Systems

Title
Fundamentals of Рhysical and Nanoelectronics
Code
Module type
Вибіркова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
7 Semester
Number of ECTS credits allocated
2
Learning outcomes
The student should know: The existing classification of nanomaterials The physical essence of modern methods of researching nanomaterials. Properties, technological aspects of obtaining and using certain classes of nanomaterials, in particular, fullerenes, graphene, carbon nanotubes Physical properties of typical micro- and nanoelectronics structures that underlie the construction and functioning of nanoelectronics devices and devices. Classification and division of semiconductor quantum structures into zero-dimensional, one-dimensional and two-dimensional. Classification of semiconductor low-dimensional structures and their physical properties. Ways to use typical structures of micro- and nanoelectronics, the latest materials and devices based on them, Possibilities of practical application of semiconductor structures in micro-, nanoelectronics and modern technologies
Form of study
Prerequisites and co-requisites
The discipline "Fundamentals of Physical and Nanoelectronics" is part of the elective block of disciplines for the program Applied Physics, Nanoelectronics and Computer Technologies and uses the results of studying the following disciplines: "General Physics, Materials of Modern Electronics, Electricity and Magnetism, Molecular Physics, Physics of Surface Phenomena.
Course content
The purpose of the discipline is to consider the main stages of the development of electronics, micro- and nanoelectronics, to deepen students' knowledge of the structure and properties of nanomaterials, to review modern scientific and technological aspects of the manufacture of nanostructures, directions and prospects for the development of nanoelectronics. The course addresses issues related to the classification of nanomaterials, methods of their production, research, and also examines existing and promising areas of practical application of nanoscale materials. The issues related to the classification of emissions and examples of their use for the study of physical properties of surfaces are considered. The physical foundations of thermoelectronic emission of metals and semiconductors are presented. The study of the discipline "Fundamentals of Physical and Nanoelectronics" allows you to understand the physical aspects of micro- and nanoelectronics, the ways of transition from micro- to nanoelectronic devices; nanomaterials and nanotechnology underlying the construction and functioning of nanoelectronic devices and devices. The basic information on the current level of scientific and technical achievements in the field of nanoelectronics based on semiconductors, ferromagnets, carbon nanostructures, graphene, fullerenes, carbon nanotubes is presented. The physical foundations of molecular electronics are presented. Nanostructured ferromagnets and the basics of magnetic nanoelectronics are considered. The main types of emissions are considered: auto-electronic, photoelectronic, secondary-electronic emission.
Recommended or required reading and other learning resources/tools
Додаткова: 1. V.V. Mitin, V.A. Kochelap, M.A. Stroscio, Introduction to Nanoelectronics: Science, Nanotechnology, Engineering, and Applications (New York, Cambridge University Press, 2008). – 347с. 2. Багдасарян А.А. Основи наноелектроніки: навчальний посібник / А.А. Багдасарян. – Суми : Сумський державний університет, 2019. – 133 с. 3. Осадчук В.С. Основи наноелектроніки: Навчальний посібник / В.С. Осадчук, О.В. Осадчук. – Вінниця : ВНТУ, 2016. – 199 с. 4. НАНОЕЛЕКТРОНІКА. Квантово-механічні засади, структури, фізичні властивості: навч. посіб. / Д.М. Заячук, Ю.І. Якименко, В.М. Співак, О.В. Богдан, А.Т. Орлов, В.М. Коваль. — К.: Кафедра, 2013. — 428 с., іл.
Planned learning activities and teaching methods
Лекцій – 44 год. Самостійна робота
Assessment methods and criteria
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Sergey Petrovich Kulyk
Department of Quantum Radio Physics and Nanoelectronics
Faculty of Radiophysics, Electronics and Computer Systems
Yurii Anatoliiovych Len
Department of Quantum Radio Physics and Nanoelectronics
Faculty of Radiophysics, Electronics and Computer Systems