Gradual hydrophobic surface functionalization of dry silica aerogels by reaction with silane precursors dissolved in supercritical carbon dioxide

Abstract

We report the synthesis and the surface modification of hydrophilic and hydrophobic silica, aerogels obtained via a sol–gel process. Tetramethyl orthosilicate or a mix of the first one with, trimethylethoxysilane have been used as precursors. The hydrolysis and poly-condensation steps were, followed by carbon dioxide supercritical drying (T=45°C; P=105bar). The resulting dry hydrophilic, aerogels were subjected to a hydrophobic surface functionalization using supercritical carbon dioxide, as the solvent for different silane functionalization reactants: trimethylethoxysilane, octyltrimethoxysilane and chlorotrimethylsilane. Effects of the working pressure and reagent concentration on the functionalization were analyzed using FT-IR spectroscopy and exposing the treated aerogels to saturated moisture conditions in order to study the mass increment during the humidification. Nitrogen adsorption measurements show a considerable drop on the specific areas (13–17%) and on the pore volumes which were reduced by 50%. By modification of the operating pressure and variation of the functionalization agent employed, the degree of functionalization could be gradually increased up to the values of the aerogels synthesized as hydrophobic in the sol–gel phase.