Comparative analysis of the physicochemical characteristics of SiO2 aerogels prepared by drying under subcritical and supercritical conditions

Comparative analysis of the physicochemical characteristics of SiO2 aerogels prepared by drying under subcritical and supercritical conditions

SiO 2 -based aerogels have been produced be removing a solvent (ethanol or hexafluoroisopropanol) from lyogels both above and below the critical temperature of the alcohols (in the range 210–260 and 160–220°C, respectively). The resultant materials have been characterized by low-temperature nitrogen...

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Bibliographic Details
Published in:Inorganic materials Vol. 53; no. 12; pp. 1270 - 1278
Main Authors: Lermontov, S. A., Malkova, A. N., Sipyagina, N. A., Yorov, Kh. E., Kopitsa, G. P., Baranchikov, A. E., Ivanov, V. K., Pipich, V., Szekely, N. K.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-12-2017
Springer Nature B.V
Subjects:
Aerogels
Alcohols
Chemistry
Chemistry and Materials Science
Critical temperature
Drying
Electron microscopy
Ethanol
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Materials Science
Neutron scattering
Neutrons
Porosity
Scanning electron microscopy
Silicon dioxide
Solvents
Thermal analysis
Transition temperature
subcritical drying
specific surface area
supercritical drying
aerogels
mesostructure
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Summary:SiO 2 -based aerogels have been produced be removing a solvent (ethanol or hexafluoroisopropanol) from lyogels both above and below the critical temperature of the alcohols (in the range 210–260 and 160–220°C, respectively). The resultant materials have been characterized by low-temperature nitrogen adsorption measurements, X-ray diffraction, thermal analysis, scanning electron microscopy, X-ray microanalysis, and small-angle and ultrasmall-angle neutron scattering. The results demonstrate that removing the solvent 20–30°C below the critical temperature of the solvent yields silica that is characterized by higher specific porosity and has the same or a larger specific surface area in comparison with the aerogels produced by drying under supercritical conditions. The nature of the solvent used and the solvent removal temperature influence the size and aggregation behavior of primary clusters and the cluster aggregate size in the aerogels.
ISSN:0020-1685
1608-3172
DOI:10.1134/S002016851712007X