L. Bois et al., STRUCTURAL CHARACTERIZATION OF SOL-GEL DERIVED OXYCARBIDE GLASSES .1.STUDY OF THE PYROLYSIS PROCESS, Chemistry of materials, 6(6), 1994, pp. 796-802
A gel resulting from the cohydrolysis of dimethyldiethoxysilane, a sil
oxane precursor, and tetraethoxysilane, a silica precursor, has been p
yrolyzed to a silicon oxycarbide network. This conversion has been car
efully characterized using various structural techniques: thermogravim
etric analysis coupled with mass spectrometry, multinuclear solid-stat
e magic angle spinning nuclear magnetic resonance (Si-29, H-1, and C-1
3), infrared spectroscopy, and electronic spin resonance. The pyrolysi
s process can be divided in two main stages. In the 400-650-degrees-C
temperature range, redistribution reactions between Si-O and Si-C bond
s occur with evolution of low molecular weight siloxanes. New sites ar
e created, but the methyl groups remain intact. From 650 to 1000-degre
es-C, the conversion of the polymeric network into an inorganic materi
al takes place. Cleavage of C-H, Si-C, but also Si-O bonds occurs with
evolution of methane, hydrogen and water. Aromatic carbon units are f
ormed. Heat treatment at 1000-degrees-C in argon flow leads to the for
mation of an amorphous silicon oxycarbide phase, characterized by SiCx
O4-x units. The presence of a free carbon phase has also been shown.