0000000000660204
AUTHOR
A. Wójcik
Impact of Vanadium(IV)-Oxy Acetylacetonate and Vanadium(III) Acetylacetonatel on the DPPC Liposome Membranes: EPR Studies
The effect of vanadium (IV)-oxy acetylacetonate (V4) and vanadium(III) acetylacetonate (V3) on the liposome membranes formed of synthetic lecithin (DPPC) was presented in this paper. Liposomes were formed during the sonication of DPPC lecithin in an aqueous medium. The concentration of the vanadium compounds changed in the range of 0% to 2.4% in molar ratio to the lecithin. The EPR technique made use of three spin probes penetrating the different areas of the membrane (as follows: TEMPO, 16-DOXYL stearic acid methyl ester, stearic acid 5-DOXYL methyl ester). TEMPO probe penetrates the interphase water-lipid (partition parameter F), the probe 16-DOXYL locates in the middle of the lipid bilay…
Studies of Mechanical Treatment on Surface Charge of Bioactive Composites
Composite materials containing a bioactive phase (sol-gel-derived bioglass) and a mechanical strength phase (aluminum oxide-porous corundum) are promising materials for repair of living tissues. The influence of mechanical treatment of composite structure containing sintered corundum and CaOSiO2-P2O5 glass system was examined by exoelectron emission and electrokinetic’s potential method. The microstructure of the biocomposite material, its mechanical properties and the processing techniques used are all very strongly interrelated.. The charge layer generated on the surface of the composite biomaterials upon deformation and the type of the electrical charge in implants plays significant role…