Functional nanomaterials and advanced technologies
The program consists of 120 ECTS credits which are acquired over 2 years that start with one year of course work followed by one year of master thesis (MSc project) work in experimental or theoretical research or around startup projects. All courses will be taught in English. Based on their previous academic specialization, students can choose their master module, and the subject of their MSc project. Students of the different modules will have a strong interaction in selected courses fostering interdisciplinary understanding. All modules involve training programs in soft skill techniques. During the first two semesters students will attend lectures, tutorials, seminars, problem solving sessions and laboratory courses.
| I semester | Total | Lectures | Practice | Lab | Self | Credit | |
| 1 | Selected Chapters in Condensed Matter Physics | 4 CP | 1 CP | – | – | 3 CP | Exam |
| 2 | Selected Chapters in Opthics and Photonics | 4 CP | 1 CP | – | – | 3 CP | Exam |
| 3 | Functional Nanomaterials Application | 4 CP | 1 CP | – | – | 3 CP | Credit |
| 4 | Selected Сhapters in Nanotechnology | 4 CP | 1 CP | – | – | 3 CP | Exam |
| 5 | Modern computational Techniques | 3 CP | 1 CP | 2 CP | Credit | ||
| 6a | Advanced Scientific Methods. Experiment | 5 CP | – | 2 CP | – | 3 CP | Credit with points |
| 6b | Advanced Scientific Methods. Theory | 5 CP | – | 2 CP | – | 3 CP | Credit with points |
| 7a | English | 3 CP | – | 1 CP | – | 2 CP | Credit |
| 7b | Russian | 3 CP | – | 1 CP | – | 2 CP | Credit |
| Total | 27 CP |
| II semester, Module 1 | Total | Lectures | Practice | Lab | Self | Credit | |
| 1 | Microscopy: Method of Micro- and Nanoscale Visualization | 5 CP | 1 CP | 1 CP | – | 3 CP | Credit |
| 2 | Physical Chemistry of Nanoparticles | 5 CP | 1 CP | – | – | 4 CP | Exam |
| 3 | Nanomaterials and Biological Systems. Bionanotechnologies | 5 CP | 1 CP | 1 CP | – | 3 CP | Exam |
| 4 | Selected Chapters of Biology and Chemistry | 6 CP | 1 CP | 1 CP | – | 4 CP | Credit with points |
| 5 | Advanced Nanomaterials Science | 6 CP | 1 CP | 1 CP | – | 4 CP | Exam |
| 6 | Scientific Communication, Presentation and Business Skills | 3 CP | – | 1 CP | – | 2 CP | Credit |
| 7 | English | 3 CP | – | 1 CP | – | 2 CP | Credit |
| Facultative Russian | 3 CP | – | 1 CP | – | 2 CP | Credit | |
| Total | 33 CP |
| II semester, Module 2 | Total | Lectures | Practice | Lab | Self | Credit | |
| 1 | Multiferroic and Smart Materials | 6 CP | 1 CP | 1 CP | – | 4 CP | Credit with points |
| 2 | Nano- , Surface- and Interface Physics | 5 CP | 1 CP | 1 CP | – | 3 CP | Exam |
| 3 | Additive Manufacturing Technologies: from Macro- to Nanoscale | 5 CP | 1 CP | – | – | 4 CP | Credit |
| 4 | Application of Magnetic Matherials | 5 CP | 1 CP | – | – | 4 CP | Exam |
| 5 | Advanced Nanomaterials Science | 6 CP | 1 CP | 1 CP | – | 4 CP | Exam |
| 6 | Scientific Communication, Presentation and Business Skills | 3 CP | – | 1 CP | – | 2 CP | Credit |
| 7 | English | 3 CP | – | 1 CP | – | 2 CP | Credit |
| Facultative Russian | 3 CP | – | 1 CP | – | 2 CP | Credit | |
| Total | 33 CP |
| II semester, Module 3 | Total | Lectures | Practice | Lab | Self | Credit | |
| 1 | Avdanced Photonics and Nanophotonics | 6 CP | 1 CP | 1 CP | 4 CP | Exam | |
| 2 | Laser Physics | 5 CP | 1 CP | 1 CP | 1 CP | 2 CP | Exam |
| 3 | Molecular Photonics | 6 CP | 1 CP | 1 CP | 1 CP | 2 CP | Exam |
| 4 | Holography and Image Processing | 5 CP | 1 CP | 1 CP | 3 CP | Credit | |
| 5 | X-ray Optics | 5 CP | 1 CP | 4 CP | Credit with points | ||
| 6 | Scientific Communication, Presentation and Business Skills | 3 CP | – | 1 CP | – | 2 CP | Credit |
| 7 | English | 3 CP | – | 1 CP | – | 2 CP | Credit |
| Facultative Russian | 3 CP | – | 1 CP | – | 2 CP | Credit | |
| Total | 33 CP |