Adsorption and thermal release of highly volatile compounds in silica aerogels

This work reports the adsorption/desorption behaviour of two highly volatile compounds (1-menthol and 2-methoxy pyrazine) in hydrophobic and hydrophilic silica aerogels where CO2 is used as an effective solvent to deliver these compounds to the inner surfaces of the aerogels. The thermal desorption behaviour of both substances depends intimately on the strength of the interactions of the absorbed substance with the type and availability of hydrophobic and hydrophilic surface groups in each aerogel. For example, as much as ∼50 wt% of either compound remains absorbed on the hydrophilic aerogel surface at temperatures of ∼250–300 °C, whereas these same compounds are released from the hydrophobic aerogel at 100–150 °C lower temperatures. The results reported here provide insight into the application of silica gels as delivery/storage devices with potential applications in the food, drug, flavors, and other allied industries.

Graphical abstractThis work reports the adsorption/desorption behaviour of two highly volatile compounds in hydrophobic and hydrophilic silica aerogels where CO2 is used as an effective solvent to deliver these compounds to the inner surfaces of the aerogels. The results reported here provide insight into the application of silica gels as delivery/storage devices with potential applications in the food, drug, flavors, and other allied industries.Figure optionsDownload full-size imageDownload as PowerPoint slide