Thermal Gelation for Synthesis of Surface-Modified Silica Aerogel Powders

초록

A spherical silica aerogel powder with hydrophobic surfaces displaying a water contact angle of 147 degrees was synthesized from a water glass-in-hexane emulsion through ambient pressure drying. Water glass droplets containing acetic acid and ethyl alcohol were stabilized in n-hexane with a surfactant. Gelation was performed by heating the droplets, followed by solvent exchange and surface modification using a hexamethyldisilazane (HMDS)/n-hexane solution. The pH of the silicic acid solution was crucial in obtaining a highly porous silica aerogel powder with a spherical morphology. The thermal conductivity, tapped density, pore volume, and BET surface area of the silica aerogel powder were 22.4 mW center dot m(-1)K(-1), 0.07 g center dot cm(-3), 4.64 cm(3)center dot g(-1), and 989 m(2)center dot g(-1), respectively. Fourier transform infrared (FT-IR) spectroscopy analysis showed that the silica granule surface was modified by Si-CH3 groups, producing a hydrophobic aerogel.

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