Jyoti L. Gurav scite author profile

Silica aerogels have drawn a lot of interest both in science and technology because of their low bulk density (up to 95% of their volume is air), hydrophobicity, low thermal conductivity, high surface area, and optical transparency. Aerogels are synthesized from molecular precursors by sol-gel processing. Special drying techniques must be applied to replace the pore liquid with air while maintaining the solid network. Supercritical drying is most common; however, recently developed methods allow removal of the liquid at atmospheric pressure after chemical modification of the inner surface of the gels, leaving only a porous silica network filled with air. Therefore, by considering the surprising properties of aerogels, the present review addresses synthesis of silica aerogels by the sol-gel method, as well as drying techniques and applications in current industrial development and scientific research.

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Ambient pressure dried TEOS-based silica aerogels: good absorbents of organic liquids

Gurav

et al. 2010

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Physical properties of sodium silicate based silica aerogels prepared by single step sol–gel process dried at ambient pressure

Gurav

Rao

Nadargi

et al. 2009

Journal of Alloys and Compounds

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Effect of protic solvents on the physical properties of the ambient pressure dried hydrophobic silica aerogels using sodium silicate precursor

Rao

Gurav

2007

J Porous Mater

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Synthesis of glycine combusted NiFe2O4 spinel ferrite: A highly versatile gas sensor

et al. 2014

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Jyoti L. Gurav

Silica Aerogel: Synthesis and Applications

Ambient pressure dried TEOS-based silica aerogels: good absorbents of organic liquids

Physical properties of sodium silicate based silica aerogels prepared by single step sol–gel process dried at ambient pressure

Effect of protic solvents on the physical properties of the ambient pressure dried hydrophobic silica aerogels using sodium silicate precursor

Synthesis of glycine combusted NiFe2O4 spinel ferrite: A highly versatile gas sensor

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