Physics of graphene
Course: Medical physics
Structural unit: Faculty of Physics
Title
Physics of graphene
Code
ВБ 1.1
Module type
Вибіркова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
4 Semester
Number of ECTS credits allocated
3
Learning outcomes
1. Know the patterns of formation, structure and properties of nanoscale carbon systems
2. Know the methods of obtaining nanocarbon structures and nanocomposite materials based on them;
3. To know the main methods of studying the structure, electrical transport and magnetic properties of nanocarbon systems
4. Be able to experimentally determine the structure and phase composition of nanocarbon systems based on X-ray diffraction, electron microscopy and Raman spectroscopy data.
5. Be able to carry out a comprehensive analysis of experimental data on the structural-phase composition and electrotransport, magnetic and mechanical properties of nanocarbon materials
Form of study
Full-time form
Prerequisites and co-requisites
1. Knowledge from the courses "Thermodynamics and Molecular Physics", "Electricity and Magnetism", "Quantum Mechanics", "Introduction to Solid State Physics".
2. Knowledge from higher mathematics courses and the ability to apply them for calculations.
3. Knowledge of error theory, ability to assess measurement accuracy.
Course content
As part of the course "Physics of Graphene", the physical and chemical regularities of the formation and structure of nanocarbon systems, in particular, fullerenes, fullerene-like structures, nanotubes, nanofibers and nanographite, thermodynamic and chemical conditions for obtaining nanosized carbon materials, familiarization with the processes of physical and chemical modification of nanocarbon materials and the creation of nanocomposites are considered materials based on them, studying the mechanisms of formation of electrical transport properties of various types of nanocarbon materials, mastering the methods of studying the structural-phase composition and electrical transport and magnetic properties of nanocarbon materials. The study of the discipline is aimed at mastering the means and methods of solving specific problems of professional activity, developing the skills of independent study of scientific and technical literature, acquiring the ability to formulate practical problems taking into account their physical essence; the development of a scientific worldview, modern physical thinking and the formation of analytical thinking skills.
Recommended or required reading and other learning resources/tools
1. O.A. Lazarenko, L.L. Vovchenko, I.V. Ovsienko, L.Yu. Matsui Nanocarbon - metal polymer composites: Scientific monograph. - Vinnytsia. LLC "Creations", 2018. - 200 p.
2. M.O. Boroviy I.V. Ovsienko. X-ray diffractometry of nanostructured materials. Vinnytsia. LLC "Nilan-LTD" 2018 - 86 pages.
3. F. P. Sanin, L. D. Kuchma, E. O. Jur, A. F. Sanin. Solid rocket engines. Materials and technologies. D.: Publishing House of Dnipropetrovsk University, 1999, 318 p.
4. I. V. Ovsienko, L. L. Vovchenko, L. Yu. Matsui. Carbon materials and intercalated compounds based on them. Tutorial. NVP "Naukova dumka" Publishing House of the National Academy of Sciences of Ukraine", 2009, 129 pages.
Planned learning activities and teaching methods
The total volume is 90 hours, including: Lectures – 16 hours. Laboratory classes - 2 p.m. Independent work - 60 hours.
Assessment methods and criteria
- semester assessment:
1. Modular control work 1 (16 points).
2. Defense of laboratory works of the first content module (6*4=24 points).
3. Modular control work 2 (16 points).
4. Defense of laboratory works of the second content module (12*2=24 points).
- final assessment in the form of credit
The final grade is issued on the basis of intermediate grades (80%) and credit (20%).
A student is not allowed to pass if during the semester he scored less than 46 points and did not complete and defend all laboratory work. (the conditions put forward by the teachers of this discipline should be clearly written down). The credit score cannot be less than 10 points to obtain an overall positive score for the course.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Departments
The following departments are involved in teaching the above discipline