Silica gels containing between 0.05 and 20.0 mol% Ag2O and between 0.1 and
1.0 mol% PtO2 have been synthesized using TEOS, C2H5OH, H2O, HNO3, HCl, AgN
O3 and PtCl4 as precursors. The gels obtained with Ag2O are colorless, whil
e the gels containing PtO2 are yellow. The gels have been heat treated in t
he 25-1000 degrees C temperature range. The processes of structural evoluti
on of gels have been studied by means of IR-spectroscopy, X-ray diffraction
analysis, transmission electron microscopy (TEM) and transmission electron
microdiffraction (TEMD). It has been established that the temperature of g
el to gel-glass transition decreases when the Ag2O content of the gels incr
eases. The same tendency was established for the gel to gel-glass transitio
n in the SiO2-PtO2 system.
Special attention was paid to the formation of silver and platinum metallic
particles in amorphous materials. The microstructure of the gels has been
observed and the sizes of the metal particles were determined to be from 3
to 25 nm.
The crystallization processes in the gels heat treated at 1000-1200 degrees
C have been examined and besides the silver and platinum particles alpha-c
ristobalite was formed.
It has been shown that nanocomposite materials containing ultrafine silver
and platinum particles in SiO2 amorphous or polycrystalline matrixes can be
obtained.