We describe herein the study of the temporal evolution of hexagonal mesopha
ses of silica, titania and zirconia as a function of temperature. Detailed
in situ X-ray diffraction (XRD) studies with a high temperature XRD chamber
system have been conducted in conjunction with thermogravimetric-different
ial thermal analysis coupled with mass spectrometry (TG-DTA/MS) to better u
nderstand the processes related with template removal from MCM-41 type meso
phases. The thermal behavior of the cationic surfactants in the mesostructu
red systems has been analyzed, and the processes involved have been elucida
ted. In the case of Si-MCM-41, an initial change occurs up to 250 degreesC
with an increase in intensity of all reflections, with the (1 1 0) and (2 0
0) reflections increasing later and at a higher rate than the (1 1 0) refl
ection. After 300 degreesC, changes are less pronounced and the intensities
remain unchanged while the sample is kept at 550 degreesC. The TG-DTA/MS d
ata show that the decomposition mechanism in air involves three steps. An i
nitial endothermic step is assigned to Hofmann elimination of trimethylamin
e, leading to a hydrocarbon chain. The second step is exothermic and result
s from a carbon chain fragmentation. Finally, oxidation occurring at 320 de
greesC converts the remaining organic components to carbon dioxide. Templat
e removal appears to be completely different for the transition metal based
materials: a single step complete oxidation of the surfactant is observed
around 300 degreesC in TG-DTA/MS. This is accompanied with the drastic decr
ease in d-spacing and initial sharp increase in reflection intensity in the
XRD pattern, which generally leads to the loss of the well ordered hexagon
al structure. (C) 2001 Elsevier Science B.V. All rights reserved.