Electret-thermal and dielectric analyses of electrically active colloids
Abstract
The nature and mechanism of interfacial electrical interaction in organic colloids containing an active solid phase and a polar liquid phase are studied. Such systems are shown to offer specific properties. Specifically, high electrical forces producing gradients of the potential of the self-electric internal field arise at the liquid-solid interface. In the presence of free charges and ionic conductivity channels, this field can induce currents in such systems. When investigating the colloid system of the human venous blood, it is found that the internal field causes mesoscopic inhomogeneity in the structure of the aqueous components of the plasma and cytoplasm. It is shown that the concentration of free water molecules in the liquid phase of the system is maximal in group I blood and the physically nonuniform properties of combined water show up to the greatest extent in group IV blood. This finding is corroborated by the dispersion of the dielectric polarization in blood of different groups.
- Publication:
-
Journal of Technical Physics
- Pub Date:
- August 2010
- DOI:
- 10.1134/S1063784210080219
- Bibcode:
- 2010JTePh..55.1209S
- Keywords:
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- Double Electrical Layer;
- Internal Field;
- Internal Electric Field;
- Free Water Molecule;
- Polar Matrix