Using laser-induced pyrolysis, powder samples of pure TiO2 and mixed oxides with different vanadium content were prepared and analyzed by XRD. The diffraction patterns were interpreted in microstructural terms by Fourier analysis of their peak profiles. The influence of vanadium on the phase transition was studied and the changes in the particle and microstrain distributions obtained at different temperatures were analyzed. There is an evident correlation between the initial microstrain distribution in the Ti1-xVxO2 powder and the vanadium content. The segregation of the V2O5 phase causes a strain reduction into the anatase structure. We suggest that the previously observed lowering of the transition temperature for the anatase-to-rutile transformation in the presence of vanadium is due to distortions induced by this ion in the anatase structure.
Microstructural Study of Vanadium-Titanium Oxide Powders Obtained by Laser-Induced Synthesis
DEPERO, Laura Eleonora;
1994-01-01
Abstract
Using laser-induced pyrolysis, powder samples of pure TiO2 and mixed oxides with different vanadium content were prepared and analyzed by XRD. The diffraction patterns were interpreted in microstructural terms by Fourier analysis of their peak profiles. The influence of vanadium on the phase transition was studied and the changes in the particle and microstrain distributions obtained at different temperatures were analyzed. There is an evident correlation between the initial microstrain distribution in the Ti1-xVxO2 powder and the vanadium content. The segregation of the V2O5 phase causes a strain reduction into the anatase structure. We suggest that the previously observed lowering of the transition temperature for the anatase-to-rutile transformation in the presence of vanadium is due to distortions induced by this ion in the anatase structure.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
