1. Theoretic bases of preparation of highly pure materials, properties and signification of pure material.
2. Classification of methods of separation and refining of substances, stage of cleaning and fundamentals at production of highly pure materials.
3. Theoretic principles of ion exchange, chromatography, sorption and extraction.
4. Theoretic principles of distillation, rectification, transport response, electro-dialysis, electrolysis, electro-transport.
5. Equilibrium distribution coefficient - methods of determination, retrograde solubility, correlation dependencies of ko on different parameters, Conditions on the phase crystal - melt interface, kinetic and effective distribution coefficient, Burton - Prim – Slichter equation.
6. Ternary systems, distribution coefficient in ternary system.
7. Methods of kef determination from experimental results, method of the material balance, Vigdorovich method, frozen zone, slot method.
8. Jackson\'s and Temkin\'s theory of crystallization, kinetics of the growth of crystalline materials.
9. Temperature and concentration conditions of crystallization, temperature and concentration undercooling, incidences, Tiller\'s equation.
10. Convection in melt, influence of the convection on origin defects, buoyancy, Marangoni, rotary, magnetic convection.
11. Crystallization methods, classification of crystallization techniques. Directional crystallization, Bridgman\'s method, Czochralsi method of drawing single crystals. Zone melting, multiple zone refining, Burris - Stockman - Dillon theory, final distribution in the zone melting, techniques of zone melting, \"floating zone\" method.
12. Mass transfer in directional crystallization and zone melting, reasons, incidences. Continuous zone refining, preparation of metals with homogenous distribution of elements, floating crucible method, zone levelling.
13. Epitaxial techniques for the formation of thin layers – LPE, VPE, LE, SPE, EEE, MBE methods.
14. Semiconductor materials, purification and production technology.
15. Refractory metals, purification and preparation of single crystals.
16. Preparation of special materials for microelectronics, optoelectronics, vacuum technique, nuclear techniques, power engineering, transport, memory alloys, intermetallic compounds.
2. Classification of methods of separation and refining of substances, stage of cleaning and fundamentals at production of highly pure materials.
3. Theoretic principles of ion exchange, chromatography, sorption and extraction.
4. Theoretic principles of distillation, rectification, transport response, electro-dialysis, electrolysis, electro-transport.
5. Equilibrium distribution coefficient - methods of determination, retrograde solubility, correlation dependencies of ko on different parameters, Conditions on the phase crystal - melt interface, kinetic and effective distribution coefficient, Burton - Prim – Slichter equation.
6. Ternary systems, distribution coefficient in ternary system.
7. Methods of kef determination from experimental results, method of the material balance, Vigdorovich method, frozen zone, slot method.
8. Jackson\'s and Temkin\'s theory of crystallization, kinetics of the growth of crystalline materials.
9. Temperature and concentration conditions of crystallization, temperature and concentration undercooling, incidences, Tiller\'s equation.
10. Convection in melt, influence of the convection on origin defects, buoyancy, Marangoni, rotary, magnetic convection.
11. Crystallization methods, classification of crystallization techniques. Directional crystallization, Bridgman\'s method, Czochralsi method of drawing single crystals. Zone melting, multiple zone refining, Burris - Stockman - Dillon theory, final distribution in the zone melting, techniques of zone melting, \"floating zone\" method.
12. Mass transfer in directional crystallization and zone melting, reasons, incidences. Continuous zone refining, preparation of metals with homogenous distribution of elements, floating crucible method, zone levelling.
13. Epitaxial techniques for the formation of thin layers – LPE, VPE, LE, SPE, EEE, MBE methods.
14. Semiconductor materials, purification and production technology.
15. Refractory metals, purification and preparation of single crystals.
16. Preparation of special materials for microelectronics, optoelectronics, vacuum technique, nuclear techniques, power engineering, transport, memory alloys, intermetallic compounds.