Silica glasses with substitutional Sn-doping or with dispersion of SnO2 nanoclusters were prepared by the solgel method. The occurrence of SnO2 clustering was investigated by optical absorption, Raman scattering and electron paramagnetic resonance spectroscopies, varying both the tin concentration and the densification temperature of Sn-doped silica xerogels. The 3.7 eV absorption edge of SnO2 and the A1g Raman mode at 630 cm-1 of the SnO2 phonon spectrum were used to assess the presence of SnO2 nanoclusters; the yield of X-ray induced paramagnetic E′ Sn centres was monitored to probe the variation in the amount of substitutional Sn centres. The results indicate that the clustering of SnO2 becomes effective for Sn concentrations ≥0.8 mol% and it is competitive with the substitutional doping in xerogels densified at T≥900 °C. No evidence of pre-existent clustering was observed in xerogels densified at lower temperatures in the investigated doping range.
Chiodini, N., Meinardi, F., Morazzoni, F., Paleari, A., Padovani, J., Scotti, R., et al. (2001). Thermally induced segregation of SnO2 nanoclusters in Sn-doped silica glasses from oversaturated Sn-doped silica xerogels. JOURNAL OF MATERIALS CHEMISTRY, 11(3), 926-929 [10.1039/b006999j].
Thermally induced segregation of SnO2 nanoclusters in Sn-doped silica glasses from oversaturated Sn-doped silica xerogels
CHIODINI, NORBERTO;MEINARDI, FRANCESCO;MORAZZONI, FRANCA;PALEARI, ALBERTO MARIA FELICE;Padovani, J;SCOTTI, ROBERTO;SPINOLO, GIORGIO MARIO
2001
Abstract
Silica glasses with substitutional Sn-doping or with dispersion of SnO2 nanoclusters were prepared by the solgel method. The occurrence of SnO2 clustering was investigated by optical absorption, Raman scattering and electron paramagnetic resonance spectroscopies, varying both the tin concentration and the densification temperature of Sn-doped silica xerogels. The 3.7 eV absorption edge of SnO2 and the A1g Raman mode at 630 cm-1 of the SnO2 phonon spectrum were used to assess the presence of SnO2 nanoclusters; the yield of X-ray induced paramagnetic E′ Sn centres was monitored to probe the variation in the amount of substitutional Sn centres. The results indicate that the clustering of SnO2 becomes effective for Sn concentrations ≥0.8 mol% and it is competitive with the substitutional doping in xerogels densified at T≥900 °C. No evidence of pre-existent clustering was observed in xerogels densified at lower temperatures in the investigated doping range.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.