0000000000877705
AUTHOR
P. Mustarelli
Structural, Spectroscopic and Electrical Features of Undoped and Mn Doped LiTi2(PO4)3
The study of the ionic conducting material LiTi2(PO 4)3 and of its Mn-substituted derivate reveals that the Mn distribution is strictly related to the synthetic method. The results of the structural refinement of X-ray and neutron (ToF) powder diffraction data and of XPS analysis demonstrate that Mn2+ ions are located on the lithium octahedral site, while Mn3+ and Mn4+ ions occupy the titanium ones. The Mn2+ amount on the lithium site seems to be the main factor responsible for the conductivity decrease observed in doped samples. The EPR spectra evidence clustering effects of Mn on both Li and Ti sites and the presence of more insulated Mn2+ ions. The effect of the major Mn amount on Ti sit…
Luminescence and absorption of Sn-related impurity centers in silica.
ABSTRACT We report an experimental study on the absorption and luninescence spectra of oxygen deficient point defects in Sn-doped silica. The absorption band at 4.9 eV (B2b band) and the two related photoluminescence bands at -4.2 eV (singlet-singlet emission, S1 -> So) and at 3.2 eV (triplet-singlet emission, T1 -> So), linked by a thermally activated T1 -> S1 inter-system crossing process (ISC), are studied as a function oftemperature from 300 to 20 K. This approach allows us to investigate the dynamics properties of the matrix in the surroundings of the point defects and the efects of local disorder on the two relaxation processes from S1: the radiatiye channel to So and the ISC process …