Modern technologies for materials synthesis (105 –Applied physics and Nanomaterials)
Type: For the choice of university
Department: metal physics
Curriculum
| Semester | Credits | Reporting |
| 9 | 2 | Setoff |
| 10 | 2 | Setoff |
Lectures
| Semester | Amount of hours | Lecturer | Group(s) |
| 9 | 16 | Professor Mudry S. I. | |
| 10 | 16 | Professor Mudry S. I. |
Description of the academic discipline
As a result of studying this special course the student must
know:
modern technologies for obtaining structural metal alloys, semiconductor materials, nanoparticles, composites and other materials for various functional purposes. The main attention will be paid to students’ knowledge of the physical foundations of new technologies and the ability to choose one of them to obtain specific materials with the necessary parameters to ensure optimal performance.
be able:
- to estimate the suitability of a technological process to create materials for a specific functional purpose;
- to choose the optimal technological parameters for programmable synthesis of new alloys;
- combine the features of technological processes with the results of measuring physical and chemical properties;
- use computer methods to control technological processes.
Recommended Literature
Basic:
- Frank J. Owens, Charles P. Poole The physics and chemistry of nanosolids, John Wiley, New Jersey, 2008, 539p.
- S.O. Kasap. Principles of electronic materials and devices., Mc.Graw-Hill Companies, 2006, 874p.
- U.K. Singh, Manish Dwived. Manufacturing processes, new age international publishers, 2009, 290p.
Accessary:
- M. Ohring. Materials science of thin films. Deposition and structure, Boston 1998, 783p.
- M. Kuno. Introduction to nanoscience and nanotechnology: A workbook, Notre Dame, 2004, 246p.
Information resources: