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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
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: 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 (30%): performance of laboratory work, oral survey; performance of an individual task.
Final control (70%): testing (50%), oral answer (20%).
Recommended books: Basic literature:
1. Крилик, Л. В. Матеріали електронної техніки : навчальний посібник / Л. В. Крилик, О. О. Селецька. – Вінниця : ВНТУ, 2017. – 120 с.
2. Готра З.Ю. Технологія електронної техніки: Навчальний посібник: у 2 т. - Т.2./ З.Ю. Готра: - Львів: Видавництво Національного університету «Львівська політехніка», 2010. – 884 с.
3. Готра З.Ю., Григорчак І.І., Лукіянець Б.А. та ін. Наноелектроніка: Науково-навчальне видання. – Львів: Ліга-Прес, 2009. – 360 с.
4. Калинушкін Є.П., Федоркова Н.М., Синиціна Ю.П. та ін. Тонкоплівкові матеріали та технології їх одержання: Навч. посібник. – Дніпропетровськ: НМетАУ, 2009. – 175 с.
5. Теплові процеси в електроніці / Ю.Я. Бобало, В. Вуйцік, З.Ю. Готра, Т. Голець, В. Каліта, В.І. Лозбін, І.С. Романюк; за ред. З.Ю. Готри. – Львів: Ліга-Прес, 2007. – 320 с. (монографія)
Supporting literature:
1. Mykytyuk Z.M., Barylo H.I., Petrina*** R.O., Kremer I.P., Ivakh M.S., Prystay*** T.V. Optical sensor for detecting the amino acids concentration in aqueous solutions // Electronic processes in organic and inorganic materials : abstracts of the XII International conference, 1–5 June 2020, Kamianets-Podilskyi. – 2020.
2. Petrina*** R.O., Khomyak*** S.V., Gubriy*** Z.V., Kniazieva*** K.S., Mykytyuk Z.M. Identification amino acids in callus biomass of plants by optical sensor // Electronic processes in organic and inorganic materials : abstracts of the XII International conference, 1–5 June 2020, Kamianets-Podilskyi. – 2020.
3. Bolshakova*** Inessa, Kost*** Yaroslav, Radishevskyi Maksym, Shurygin*** Fedir, Vasyliev*** Oleksandr, Vasil’evskii*** Ivan, Kuech*** Thomas. Adhesive and barrier sublayers for metal nanofilms active elements of Hall sensors // Nanomaterials: applications and properties : proceedings of 2019 IEEE 9th International conference, Odesa, Ukraine, September 15–20, 2019, Vol. 2. – 2019
4. Бойко*** О. В., Готра З. Ю., Фечан А. В. Органічні оптичні сенсори фізичних величин // Вісник Національного університету ”Львівська політехніка”. Серія “Радіоелектроніка та телекомунікації”. – 2018. – № 909. – С. 42–50.
Methods of Materials and Microstructures Investigation in Electronics (курсовий проєкт)
Major: Electronics
Code of subject: 7.171.03.O.006
Credits: 3.00
Department: Department of Electronic Engineering
Lecturer: Ph.D., Assoc. Kuchmiy Halyna Lyubomyrivna
Semester: 1 семестр
Mode of study: денна
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 course project is designed to form and develop the skills and abilities to develop and model schemes of control systems for the research of thin semiconductor films and structures based on them.
Stages of course project implementation:
1. Acquaintance with the task, the methodology of the course project and clarification of the task option.
2. Writing the theoretical section.
3. Development and modeling of the scheme of the control system of the given research device.
4. Justification of equipment selection.
5. Protection of the course project.
Assessment methods and criteria: 1. Current control in the form of inspection by the teacher of parts of the course project in accordance with the description of the stages of the course project.
2. Final control in the form of defense of the course project.
• Current control - 40%.
• Checking the text and graphics of the course project - 20%.
• Defense of the course project - 40%.
Recommended books: Basic literature:
1. Крилик, Л. В. Матеріали електронної техніки : навчальний посібник / Л. В. Крилик, О. О. Селецька. – Вінниця : ВНТУ, 2017. – 120 с.
2. Готра З.Ю. Технологія електронної техніки: Навчальний посібник: у 2 т. - Т.2./ З.Ю. Готра: - Львів: Видавництво Національного університету «Львівська політехніка», 2010. – 884 с.
3. Готра З.Ю., Григорчак І.І., Лукіянець Б.А. та ін. Наноелектроніка: Науково-навчальне видання. – Львів: Ліга-Прес, 2009. – 360 с.
4. Калинушкін Є.П., Федоркова Н.М., Синиціна Ю.П. та ін. Тонкоплівкові матеріали та технології їх одержання: Навч. посібник. – Дніпропетровськ: НМетАУ, 2009. – 175 с.
5. Теплові процеси в електроніці / Ю.Я. Бобало, В. Вуйцік, З.Ю. Готра, Т. Голець, В. Каліта, В.І. Лозбін, І.С. Романюк; за ред. З.Ю. Готри. – Львів: Ліга-Прес, 2007. – 320 с. (монографія)
Supporting literature:
1. Mykytyuk Z.M., Barylo H.I., Petrina*** R.O., Kremer I.P., Ivakh M.S., Prystay*** T.V. Optical sensor for detecting the amino acids concentration in aqueous solutions // Electronic processes in organic and inorganic materials : abstracts of the XII International conference, 1–5 June 2020, Kamianets-Podilskyi. – 2020.
2. Petrina*** R.O., Khomyak*** S.V., Gubriy*** Z.V., Kniazieva*** K.S., Mykytyuk Z.M. Identification amino acids in callus biomass of plants by optical sensor // Electronic processes in organic and inorganic materials : abstracts of the XII International conference, 1–5 June 2020, Kamianets-Podilskyi. – 2020.
3. Bolshakova*** Inessa, Kost*** Yaroslav, Radishevskyi Maksym, Shurygin*** Fedir, Vasyliev*** Oleksandr, Vasil’evskii*** Ivan, Kuech*** Thomas. Adhesive and barrier sublayers for metal nanofilms active elements of Hall sensors // Nanomaterials: applications and properties : proceedings of 2019 IEEE 9th International conference, Odesa, Ukraine, September 15–20, 2019, Vol. 2. – 2019
4. Бойко*** О. В., Готра З. Ю., Фечан А. В. Органічні оптичні сенсори фізичних величин // Вісник Національного університету ”Львівська політехніка”. Серія “Радіоелектроніка та телекомунікації”. – 2018. – № 909. – С. 42–50.