Functional Materials of Molecular Energy

Major: Applied Physics
Code of subject: 7.105.01.E.026
Credits: 5.00
Department: Applied Physics and Nanomaterials Science
Lecturer: associate professor Zaichenko Oleksandr
Semester: 2 семестр
Mode of study: денна
Learning outcomes: • know the synthesis of modern functional materials • have an idea of ??the relationship between the structure of materials and their properties • to have an idea of ??the basic laws of changing the physicochemical and electrophysical properties of substances in the presence of impurities, the relationship of atomic structure and electronic properties of materials, methods of obtaining and features of the structure of crystalline, film and nanomaterials, on the features of the influence of the dimension and ordering of structures on their properties ; • To know the main classes of modern inorganic, polymeric and polymer-inorganic functional materials; • be able to correctly assess the prospects of inorganic compounds and composites for the identification of functional properties
Required prior and related subjects: • Solid State Physicsа (Electronic band structure) • Crystalline state of a substance basic concepts • Statistical physics and thermodynamics • Non-equilibrium thermodynamics
Summary of the subject: New intellectual materials. Materials that are activated thermally. Electrically activated materials. Materials activated by a magnetic field. Materials activated chemically. General information about electronics materials and their classification. Classification of electronics materials. Conductive materials. Electrical properties of metal alloys. Non-metallic conductive materials. Own and semiconductor semiconductors. Classification of semiconductor materials. Classification of dielectrics by polarization mechanisms. Electro isolation polymers. Composite plastics and laminate plastics. Classification of substances by magnetic properties. Nanomaterials and nanotechnologies - history, modernity and perspectives. Features of the properties of nanomaterials and the main directions of their use. Getting Nanopowders. Carbon nanomaterials. Micro and nanoelectromechanical systems. The use of smart devices.
Assessment methods and criteria: • written reports on laboratory work, oral examination, control works (40%) • final control (60 %, control measure, exam): written-oral form (60%)
Recommended books: 1. Є.Я. Швець, І.Ф. Червоний, Ю.В. Головко. Матеріали і компоненти електроніки - Запоріжжя. ЗДІА. 2011. – 278с 2. Р.А.Андриевский, А.В.Рагуля. Наноструктурные материалы: - М: Издательский центр «Академия», 2005. — 192с. 3. К. Уорден Новые интеллектуальные материалы и конструкции. Свойства и применение - Москва: Техносфера, 2006. 224с 4. Singh J. Smart Electronic Materials: Fundamentals and Applications - Cambridge University Press, 2005, 410 pages