1. Structures and stereochemistry of covalent compounds. Links and structure of solid metal and ionic substances.
2. Oxidation, reduction and thermal properties of inorganic compounds. Thermodynamic stability of oxidation states - Frost diagrams.
3. Systematic Inorganic Chemistry nonmetals p-metal elements and p, s, d, f elements according to the different groups. General properties, electron configuration, binding options, typical compounds application in practice.
4. Inorganic chemistry of carbon, carbides.
5. Industrially a significant the reaction of carbon dioxide.
6. Carbon-based nanomaterials intercalates graphite, fullerenes, fullerity, fulleridy, nanotubular carbon.
7. Silicates and aluminosilicates. Technically a significant silicate materials.
8. Special types of bonds in chemistry of boron, borides, boron, borate glass.
9. Chemistry of trace elements in coal.
10. Organometallics s, p, d, f elements.
2. Oxidation, reduction and thermal properties of inorganic compounds. Thermodynamic stability of oxidation states - Frost diagrams.
3. Systematic Inorganic Chemistry nonmetals p-metal elements and p, s, d, f elements according to the different groups. General properties, electron configuration, binding options, typical compounds application in practice.
4. Inorganic chemistry of carbon, carbides.
5. Industrially a significant the reaction of carbon dioxide.
6. Carbon-based nanomaterials intercalates graphite, fullerenes, fullerity, fulleridy, nanotubular carbon.
7. Silicates and aluminosilicates. Technically a significant silicate materials.
8. Special types of bonds in chemistry of boron, borides, boron, borate glass.
9. Chemistry of trace elements in coal.
10. Organometallics s, p, d, f elements.