Methods of Materials and Microstructures Investigation in Electronics

Major: Electronics
Code of subject: 7.171.03.O.002
Credits: 5.00
Department: Department of Electronic Engineering
Lecturer: Ph.D., Assoc. Kuchmiy Halyna Lyubomyrivna
Semester: 1 семестр
Mode of study: денна
Мета вивчення дисципліни: Research methods of materials and microstructures in electronic engineering are a special professional discipline for the preparation of masters in electronic engineering. The basis of the discipline is: • In-depth consideration of modern research methods that allow to model, predict and obtain materials and microstructures with specified properties based on advanced high technologies. • Orientation of a specialist-scientist in the presence of advanced research methods, their specific informativeness.
Завдання: general competences: ZK1. Ability to abstract thinking, analysis and synthesis. ZK4. Ability to conduct research at an appropriate level. ZK5. Ability to search, process and analyze information from various sources. Professional competences: FC5. Ability to ensure efficiency and quality of measurements in electronic components, devices and systems. FC7. Ability to solve problems of information processing and display in modern electronic devices and systems.
Learning outcomes: GLO 7. Carry out informational and scientific research using scientific, technical and reference literature, databases and knowledge, other sources of information; critically interpret and interpret available knowledge and data, form directions of research and development taking into account domestic and foreign experience. GLO 8. Carry out and coordinate the development, selection, use and modernization of the necessary equipment, tools and methods in the organization of the production process, taking into account technical and technological capabilities, modern science-intensive methods, means and technical solutions. COM 1. Ability to communicate, including oral and written communication in Ukrainian and foreign languages (English, German, Italian, French, Spanish); COM 2. The ability to use a variety of methods, including modern information technologies, for effective communication at the professional and social levels. А&R1. Ability to adapt to new situations and make appropriate decisions; А&R 3. The ability to take responsibility for the work performed, to make decisions independently, to achieve the set goal in compliance with the requirements of professional ethics.
Required prior and related subjects: Prerequisites: Physics. Physical foundations of electronic equipment. Materials and structures of nanoelectronics. Co-requisites: Microcircuitry. Physicochemical processes in microelectronic technology.
Summary of the subject: The program of the study discipline "Methods of research of materials and microstructures in electronic engineering" is concluded for students of the Institute of Telecommunications, Radio Electronics and Electronic Engineering who are studying Electronics. The educational discipline is devoted to the study of methods of research of thin semiconductor films and structures based on them. The physical principles of the interaction of various types of radiation on the structures of electronic equipment are analyzed, and the main modern methods of researching materials and structures, as well as the possibilities and limits of their application, are considered.
Опис: Research methods of semiconductor thin films and structures based on them. Photoelectron spectroscopy. X-ray photoelectron spectroscopy. Application of X-ray photoelectron spectroscopy for a single molecule under six different conditions. Inverse photoelectron spectroscopy. Auger spectroscopy. Methodology of cathodoluminescence research. Ion spectroscopy. Laser spectroscopy. Scanning probe microscopy. Scanning tunneling microscopy. Atomic force microscopy. Magnetic force microscopy. Electrostatic force and capacitive microscopy. Thermal spectroscopy. Optical infrared (Raman) spectroscopy. Photoluminescence studies. Methodology for studying the thickness of thin organic films. Methods of research of electrophysical properties of organic films and structures based on them. Hall's method. Seebeck's method. Impedance spectroscopy.
Assessment methods and criteria: Current control: completed and protected laboratory work, completion of individual homework. Final control: exam.
Критерії оцінювання результатів навчання: Current control (30%): performance of laboratory work (20%), performance of an individual task (10%). Final examination (70%): written component (50%), oral component (20%).
Порядок та критерії виставляння балів та оцінок: 100–88 points – (“excellent”) is awarded for a high level of knowledge (some inaccuracies are allowed) of the educational material of the component contained in the main and additional recommended literary sources, the ability to analyze the phenomena being studied in their interrelationship and development, clearly, succinctly, logically, consistently answer the questions, the ability to apply theoretical provisions when solving practical problems; 87–71 points – (“good”) is awarded for a generally correct understanding of the educational material of the component, including calculations, reasoned answers to the questions posed, which, however, contain certain (insignificant) shortcomings, for the ability to apply theoretical provisions when solving practical tasks; 70 – 50 points – (“satisfactory”) awarded for weak knowledge of the component’s educational material, inaccurate or poorly reasoned answers, with a violation of the sequence of presentation, for weak application of theoretical provisions when solving practical problems; 49-26 points - ("not certified" with the possibility of retaking the semester control) is awarded for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to apply theoretical provisions when solving practical problems; 25-00 points - ("unsatisfactory" with mandatory re-study) is awarded for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to navigate when solving practical problems, ignorance of the main fundamental provisions.
Recommended books: Basic literature: 1. Тонкоплівкова електроніка / укл.: М.М. Солован, А.І. Мостовий, Чернівці: Чернівецький нац. ун-т, 2021. 128 с. 2. Інструментальні методи досліджень в технології кераміки та скла: навчальний посібник /КПІ ім.. Сікорського; укл.: Л.М. Снасонова, А.П. Яценко – Електронні тестові дані, 2018. – 85 с. 3. О.М. Юрченко, Ж.О. Кормош, О.В. Парасюк. Онови матеріознавства/ Конспект лекцій. – Луцьк. -2018. – 44 с. 4. Крилик, Л. В. Матеріали електронної техніки: навчальний посібник / Л. В. Крилик, О. О. Селецька. – Вінниця : ВНТУ, 2017. – 120 с. Supporting literature: 1. Barylo,H.,Ivakh, M., Prystay, T., Kuchmiy, H., Kachurak, Y. Optical Sensor Based on Data Fusion Concept (2021) International Conference on Perspective Technologies and Methods in MEMS Design, 2021-May, pp. 130-133. 2. Mykytyuk Z., Vistak*** M., Barylo H., Kremer I., Ivakh M., Diskovskyi*** I. Optical sensor based on liquid crystals for detecting the amino acids concentration in aqueous solutions // Molecular Crystals and Liquid Crystals. – 2021. – Vol. 717, iss.– P. 142–148. 3. Mykytyuk Z. M., Kremer I. P., Ivakh M. S., Diskovskyi*** I. S., Khomyak*** S. V. Optical sensor with liquid crystal sensitive element for monitoring acetone vapor during exhalation [Електронний ресурс] // Molecular Crystals and Liquid Crystals. – 2021. 4. Бойко*** О. В., Готра З. Ю., Фечан*** А. В. Органічні оптичні сенсори фізичних величин // Вісник Національного університету ”Львівська політехніка”. Серія “Радіоелектроніка та телекомунікації”. – 2020. – № 915. – С. 56–65. 5. Кучмій Г. Л., Івах М. С., Адам'як* О. А., Барило* Н. Г. Використання цифрового конвертера TCS3400 в оптичних сенсорах // Радіотехнічні поля, сигнали, апарати та системи, РТПСАС 2020 : матеріали міжнародної науково-технічної конференції (Київ, 16–22 листопада 2020 р.). – 2020. – C. 169–171.
Уніфікований додаток: Lviv Polytechnic National University ensures the realization of the right of persons with disabilities to obtain higher education. Inclusive educational services are provided by the Service of accessibility to learning opportunities "Without restrictions", the purpose of which is to provide permanent individual support for the educational process of students with disabilities and chronic diseases. An important tool for the implementation of the inclusive educational policy at the University is the Program for improving the qualifications of scientific and pedagogical workers and educational and support staff in the field of social inclusion and inclusive education. Contact at: St. Karpinsky, 2/4, 1st floor, room 112 E-mail: nolimits@lpnu.ua Websites: https://lpnu.ua/nolimits https://lpnu.ua/integration.
Академічна доброчесність: The policy regarding the academic integrity of the participants of the educational process is formed on the basis of compliance with the principles of academic integrity, taking into account the norms "Regulations on academic integrity at the Lviv Polytechnic National University" (approved by the academic council of the university on June 20, 2017, protocol No. 35).