Mesoporous TiO2 gels, which are attractive for their potential application
to photocatalysts and electrodes for wet solar cells, have been prepared by
a newly developed method and their microstructure was investigated. Monoli
thic gels were obtained by hydrolysis of Ti(n-C4H9O)(4) in an ethanol/ethyl
acetoacetate solution. The wet gels were aged and dried after immersion in
an ethanol solution of surfactants, cetyltrimethylammonium chloride (CTAC)
or benzyltrimethylammonium chloride (BTAC) (CTAC- or BTAC-modified xerogels
). The organic substances in the gels can be removed by heating up to 500 d
egreesC in air. After calcination at 600 degreesC, emanation thermal analys
is (ETA) and N-2-adsorption measurements were made. The BET surface area, t
he pore volume and the pore size increased as a result of surfactant modifi
cation. The most probable purl radius of the xerogel, BTAC-modified gels an
d CTAC-modified gel was 2.4, 2.8 and 5.0 nm, respectively. The pore size di
stribution of mesoporous TiO2 gels depends on the size of surfactant micell
es. The microstructure of mesoporous gels can be characterized by ETA. The
Rn-220-release rate: of the samples labelled with Th-228 and Ra-224 during
heating was xerogel < BTAC-modified gel < CTAC-modified gel. The Rn-220 rel
ease rate depends on the pore size of the gels as well as the surface areas
. (C) 2001 Elsevier Science B.V. All rights reserved.