Czech

Not applicable.

Students will obtain overview of contemporary technologies as well as directions for further research and development.

none

Not applicable.

The course uses teaching methods in form of Lecture - 2 teaching hours per week. The e-learning system (LMS Moodle) is available to teachers and students.

The final exam is a written test. The test is composed from four tasks linked to each of the presented topics (e.g. four tasks from each topic). Presentations in pdf format are available for students at e-learning.

List of topics (actual offer is continuously updated according to the lecturers´ availability):
1. Natural plasma, 2. Thermonuclear fusion and its perspectives, 3. Illumination technics, plasma displays, 4. Gas lasers, excimers, 5. Electron, atomic and molecular beams, 6. Electric arc, 7. Switches, 8. Plasma etching, manufacturing of microelectronics, 9. Reactive particles generation and organic synthesis under plasma conditions, 10. Hard coatings (PACVD, PECVD), 11. Plasma sputtering - magnetron, diode, high frequency, 12. DLC layers depositions, 13. Surface treatment of polymers (non-polymer forming plasmas), 14. Plasma polymerization (polymer forming plasmas), grafting, 15. Semipermeable membranes, sensors based on plasma polymers, 16. Polymeric layers for applications in composites, 17. Corrosion layers reduction, 18. Formation of nanoparticles in plasmas, nanotechnologies, 19. Plasma spraying, plasmatrons, 20. Plasma sterilization, 21. Laser ablation spectroscopy (LIBS), 22. VOC decomposition in thermal and non-thermal plasmas, 23. Discharges in liquids I - principles of discharge generation, shock waves, 24. Discharges in liquids II - Active particles generation, decomposition, sterilization, 25. Post-discharges and their applications, 26. Pulsed plasmas, 27. Plasma chemical processes in planetary atmospheres, 28. Ozone generation.

Not applicable.

The goal of course is to present the contemporary state of plasma processes and technologies from the view point of research, development as well as industrial practice.

none

Not applicable.

Not applicable.

Not applicable.

Chen F., Chang J. P.: Principles of Plasma Processing. Kluwer Academic, Plenum Publishers, NewYork 2003. (EN)
Roth J. R.: Industrial Plasma Engineering Volume 1: Principles. Institute of Physics Publishing, Bristol and Philadelphia 1995. (EN)
Roth J. R.: Industrial Plasma Engineering Volume 2: Applications to Nonthermal Plasma Processing. Institute of Physics Publishing, Bristol and Philadelphia 2001. (EN)