[Analysis of the mechanism of intensification of fermentation process using yeast cells in a suspension of high-dispersed oxides].

The differential microcalorimetry was used to explore an influence of particles of silicon dioxide, and also other high-dispersed oxides (0.05% of masses.) in water suspension of yeast cells on intensification of the process of their fermentation in endogenous metabolic conditions.

[Synthesis of immunomagnetic sorbents for separation of hepatitis B and C viruses].

This study was devoted to the creation of biomagnetic sorbents, capable of removing the virus particles from the human blood serum. With this purpose specific globulins were isolated from reconvalescents sera after acute hepatitis B virus (HBV) and hepatitis C virus (HCV), which were later used as molecules-vectors (ligands). Ligands were covalently bound to magnetite encapsulated by the matrix, carrying aminopropyl groups on its surface.

[The influence of low-intensity millimeter electromagnetic emission on the vital activity of Saccharomyces cerevisiae cells].

Two mechanisms of the interaction of low-intensity millimeter electromagnetic emission (bubble and resonance) with model cellular systems (by the example of Saccharomyces cerevisiae) have been investigated. It was shown that the effect of stimulation of cell activity by electromagnetic emission has a clearly pronounced resonance character. A similar effect was evoked by the stimulation of activity of yeast cells by thermal pulse influence, which can be described in terms of the bubble mechanism.

Surface structure and properties of mixed fumed oxides.

A variety of fumed oxides such as silica, alumina, titania, silica/alumina (SA), silica/titania (ST), and alumina/silica/titania (AST) were characterized. These oxides have different specific surface areas and different primary particle composition in the bulk and at the surface. These materials were studied by FTIR, NMR, Auger electron spectroscopy, one-pass temperature-programmed desorption with mass spectrometry control (OP TPDMS), microcalorimetry, and nitrogen adsorption.

TSDC spectroscopy of relaxational and interfacial phenomena.

Applications of thermally stimulated depolarisation current (TSDC) technique to a variety of systems with different dispersion phases such as disperse and porous metal oxides, polymers, liquid crystals, amorphous and crystalline solids, composites, solid solutions, biomacromolecules, cells, tissues, etc. in gaseous or liquid dispersion media are analysed. The effects of dipolar, direct current (dc) and space charge relaxations are linked to the temperature dependent mobility of molecules, their fragments, protons, anions, and electrons and depend on thermal treatment, temperature and field intensity of polarisation, heating rate on depolarisation or cooling rate on polarisation.

Morphology and surface properties of fumed silicas.

Several series of fumed silicas and mixed fumed oxides produced and treated under different conditions were studied in gaseous and liquid media using nitrogen and water adsorption-desorption, mass spectrometry, FTIR, NMR, thermally stimulated depolarization current (TSDC), photon correlation spectroscopy (PCS), zeta potential, potentiometric titration, and Auger electron spectroscopy methods. Aggregation of primary particles and adsorption capacity (Vp) decrease and hysteresis loops of nitrogen adsorption-desorption isotherms becomes shorter with decreasing specific surface area (S(BET)). However, the shape of nitrogen adsorption-desorption isotherms can be assigned to the same type independent of S(BET) value.