Ultralow density silica aerogels prepared with PEDS

This paper deals with the synthesis of ultralow density silica aerogels using polyethoxydisiloxanes (PEDS) as the precursor Via sol-gel process followed by supercritical drying using ethanol solvent extraction. Ultralow density silica aerogels with 5 mg/cc of density were made for the molar ratio by this method. A remarkable reduction in the gelation time was observed by the effect of the catalyst NH4OH at room temperature. The microstructure and morphology Of the Ultralow density silica aerogels were characterized by the Specific Surface area, S-BET, SEM, TEM and the pore size distribution techniques. The results show that the diameter of the silica particles is about 13 nm and the pore size of the silica aerogels is about several nm. The specific Surface area of the silica aerogel is 339 m(2)/g and the specific surface area, Pore volume and aver-age pore diameter decrease with increasing density of the silica aerogel. (C) 2008 Elsevier B.V. All rights reserved