FOURIER-TRANSFORM INFRARED AND RAMAN-SPECTROSCOPIC STUDY OF SILICA SURFACES

被引:0
|
作者
BURNEAU, A [1 ]
HUMBERT, B [1 ]
BARRES, O [1 ]
GALLAS, JP [1 ]
LAVALLEY, JC [1 ]
机构
[1] INST SCI MAT & RAYONNEMENT,CNRS,URA 04414,F-14050 CAEN,FRANCE
来源
COLLOID CHEMISTRY OF SILICA | 1994年 / 234卷
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D O I
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中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Infrared and Raman spectra of silica powders differ for fumed and precipitated samples. Site models of the surfaces of fumed silica are proposed. These models involve surfaces resembling faces {111} of beta-cristobalite, edges and steps. The site SiOH...O-6(H)SiOaH, located at steps between planes {111}, is related to the absorptions at 3500, 3715, and 3742 cm(-1), for the hydroxyl groups from left to right, respectively. Dehydroxylation into SiOSiOH is easy because of the comparatively strong hydrogen bond; this siloxane bridge is a part of two five-fold (-SiO-)(5) rings and does not contribute to the Raman band at 607 cm(-1) (D-2). The single silanols that are closer than about 0.4 nm on faces {111}-and thus are weakly interacting-condense around 400 degrees C into three-fold (-SiO-)(3) rings, the breathing mode of which gives rise to the D-2 Raman band. Most of these siloxane bridges need a high relative humidity to be rehydroxylated. Vicinal single silanols on edges could also condense above 500 degrees C into very reactive (-SiO-)(2) rings.
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页码:199 / 222
页数:24
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