Quantum chemistry of macromolecules.

Hybridization of orbitals. Approximate methods of solving Schrodinger equation. Molecular spectroscopy. Semi-classical and quantum theory of chemical reactions. Biomolecular resonant recognition.

Biomedical properties of materials.

Structural, mechanical, physical, chemical and biochemical properties: engineering, classifications, characterizations, and applications.

Conductive properties of materials.

Model of quasi-free carriers: electrons and holes. Influence of crystal structure: phonons. Quasi-one-dimensional soliton and polaron charge transport.

• Semiconductors
• Bandgap width and type. Engineering, classifications, characterizations, and applications
• Conductors
• Engineering, classifications, characterizations, and applications

Superconductive properties of materials

Phenomenological theories (Londons, Ginzgurg-Landau) and microscopic (BCS) theory. Josephson junctions. Classifications, characterizations, and applications.

Dielectric properties of materials

Clausius-Mossoti relation. Theory of polarizability. Dielectric strength. Classifications, characterizations, and applications

Magnetic properties of materials.

Weak and stong magnetic ordering. Macroscopic structure of magnetics. Classifications, characterizations, and applications.