Home/ Majors directory/Applied Physics and Nanomaterials/Fundamentals of Nanomaterials Science
Fundamentals of Nanomaterials Science
Major: Applied Physics and Nanomaterials
Code of subject: 6.105.01.E.048
Credits: 4.00
Department: Applied Physics and Nanomaterials Science
Lecturer: Anatoliy Kondyr.
Semester: 6 семестр
Mode of study: денна
Learning outcomes: • have an understanding of current issues and trends in nanotechnology;
• know the physical nature of the processes that occur in the production of nanomaterials, osno-vni characteristics of nanomaterials;
• be able to present research results in the form of reports, essays and presentations;
• know the standards and other regulations to assess the quality control of products;
• know controls parameters and properties of nanoscale objects;
• be aware of the conditions for the use of nanomaterials in industry.
Required prior and related subjects: • prerequisites: molecular physics, electricity and magnetism, atomic and nuclear physics, theoretical mechanics and continuum mechanics, theoretical mechanics, statistical physics and thermodynamics;
• corequisites: solid state physics, the physics of quantum-sized systems, structural physics of disor-dered systems physics and nanotechnology, functional materials molecular energy, energy of mole-cular devices of new generation.
Summary of the subject: The classification of nanotechnologies and nanomaterials. The main types of structures of nanoma-terials. Physical causes the specific properties of nanomaterials. The main areas of application of nanomaterials. Methods for producing nanoparticles. Technology surface treatment. Methods of diagnosis of nanomaterials.
Assessment methods and criteria: • written reports on laboratory work, oral examination, reference work (30 %).
• final control (70% control measure, differential test): written, oral form (70 %).
Recommended books: 1. Прогресивні матеріали і технології. У 2-х томах. – К.: Академперіодика, 2003. – Т. 1 – 422, с.; Т. 2. – 662 с.
2. Пул Ч. Оуэнс, Ф. Нанотехнологии / Ч. Пул, Ф. Оуэнс. – М.: Техносфера, 2005. – 336 с.
3. Кондир А.І. Наноматеріалознавство і нанотехнології: навч. посібник для ВНЗ / А.І. Кондир. – Львів : Вид-во Нац. ун-ту “Львівська політехніка”, 2017. – 452 с.