Pl. Kuo et al., Function and performance of silicone copolymers, 5 - Syntheses and surfacecharacterization of an acrylized silica monomer, MACRO CH P, 201(13), 2000, pp. 1451-1457
Silica surfaces have been reacted with 2-hydroxyethyl methacrylate (2-HEMA)
to prepare acrylized silica monomer (SM). The chemical structure and chemi
cal composition of this new monomer have been extensively characterized by
FTIR, solid-state NMR, XPS, and elemental analysis (EA). The appearance of
C=C and C=O peaks in the IR adsorption spectra from Sm, the shift of the C-
13 NMR peak of the ethylene group carbon of the 2-HEMA moiety in SM and the
higher carbon content on the surface of the modified silica particle (XPS
analysis) compared to the entire silica particles (elemental analysis) give
evidence that 2-HEMA has been successfully reacted onto the silica surface
. The SM was copolymerized with stearyl acrylate (SA) to obtain a series of
copolymers (PSS) whose chemical structures have been characterized by FTIR
and solid-state NMR. Thermogravimetric analysis (TGA) has been used to stu
dy the thermal stability of these copolymers, and it was found that the add
ition of SM was very effective in improving the thermal stability. The carb
on content of SM and PSS were used to calculate the fraction of silanol gro
ups reacted with HEMA, the HEMA concentration on the surface of silica, and
the mole ratio of SA/SM in PSS. Those results were used to calculate the t
heoretical amount of residual material at 700 degrees C (R'(700)). It was f
ound that the theoretical values of R'(700) are very close those obtained f
rom the TGA experiment (R'(700)).