Infopaket

NANOELECTRONICS

ОК 06

Обов’язкова дисципліна для ОП

Second

2023/2024

1 Semester

6

The student must know the essence of physical effects that occur in typical nanostructures, the physical basis of the construction and operation of nanoelectronics devices, methods of using nanoelectronics elements and devices and new materials in the development, manufacture, implementation and operation of hardware means of information transmission, processing and protection. The student must be able to classify nanoelectronics devices, explain their purpose and principles of operation, use nanoelectronics elements and devices and new materials in the development, manufacture, implementation and operation of hardware means of information transmission, processing and protection, classify devices built on the basis of nanoelectronics devices, independently acquire new knowledge, prepare materials for reports and publications.

Full-time form

The educational discipline "Nanoelectronics" is a mandatory component of the educational program and uses the results of studying the mandatory disciplines "Theory of information transmission" and "Mathematical modeling of systems and processes" of this OP, as well as "General physics", "Materials of modern electronics" and " Component base of radio-electronic means", which are taught at the "Bachelor's" OP. The educational discipline "Nanoelectronics" is the basis for the mandatory component "Nanostructural elements of radioelectronic devices". Prerequisites: 1. Know physical phenomena and understand physical effects that occur in solids. 2. To know the physical principles of operation of semiconductor devices. 3. Have basic knowledge of coding and information transmission. 4. To have the skills of mathematical and computer modeling of systems and processes in radio engineering.

The discipline program examines physical effects that occur in typical nanostructures, ways of transition from micro- to nanoelectronic devices; description of nanotechnological processes, physical foundations of construction and operation of nanoelectronics devices.

1. М.Г. Находкін, Д.І. Шека. Фізичні основи мікро- та наноелектроніки: підручник. - К.: ВПЦ “Київський університет”, - 2005, 431 с. (НБУ ім. В. Вернадського, Бібліотека ім. М. Максимовича) 2. Ю.М. Поплавко, О.В. Борисов, В.І. Ільченко, Ю.І. Якименко. Мікроелектроніка і наноелектроніка. Вступ до спеціальності. - К.: НТТУ “КПІ”, - 2010, 160 с. (НБУ ім. В. Вернадського) 3. Будник М.М., Войтович І.Д., Ільченко В.В., Корсунський В.М. Фізико-технологічні основи наноелектроніки: навчальний посібник. – Київ: Інтерсервіс, 2015. – 383 с. (Бібліотека ім. М. Максимовича) 4. І.І. Бех, В.В. Ільченко,О. М. Костюкевич, О.І. Кравченко, О.Є. Лушкін, В.М. Телега, В.П.Чехун. Навчальний посібник з курсу “Фізична електроніка “. Частина II “Емісійна електроніка”. - К.: Видавничо-поліграфічний центр “Київський університет”, - 2011, - 145 c. (НБУ ім. В. Вернадського, Бібліотека ім. М. Максимовича)

Lectures, practical classes, independent individual work.

Semester evaluation: during the semester, one written modular test based on lecture materials is provided. Other forms of control are an oral report at a seminar (or an essay based on self-study materials) and a written report on the performance of three laboratory works. The final assessment takes place in the form of an exam: the form of the exam is written. In total, you can get from 0 to 40 points for the exam. The conditions for admission to the final exam are the student's total achievement of no less than the critical-calculated minimum of 36 points per semester. The grade for the exam cannot be less than 24 points.

Ukrainian