Gaggero, GiuliaGiuliaGaggeroSubrahmanyam, RamanRamanSubrahmanyamSchröter, BaldurBaldurSchröterGurikov, PavelPavelGurikovDelucchi, MarinaMarinaDelucchi2022-10-272022-10-272022-10-26Gels 8 (11): 691 (2022)http://hdl.handle.net/11420/13844In this work, organic aerogels from spent ground coffee and apple pomace were prepared and characterized for the first time. Apple aerogel was found to be much lighter than that from coffee (0.19 vs. 0.016 g/cm³, whereas the specific surface areas are comparable (229 vs. 208 m²/g). Being intrinsically hydrophilic, these aerogels were silanized, both in liquid and gas phase, to increase stability in aqueous media. The latter modification method allowed chemical grafting of the silane to the aerogel surface (evidenced by FTIR and TGA) and resulted in certain hydrophobicity, as was evidenced via contact angle measurements: both aerogels possess a contact angle of ca. 100° after the gas hydrophobization, while for the pristine aerogels it was 50°. Furthermore, it was observed that the gas-phase silanization process is more applicable to apple aerogels.In this work, organic aerogels from spent ground coffee and apple pomace were prepared and characterized for the first time. Apple aerogel was found to be much lighter than that from coffee (0.19 vs. 0.016 g/cm₃, whereas the specific surface areas are comparable (229 vs. 208 m₂/g). Being intrinsically hydrophilic, these aerogels were silanized, both in liquid and gas phase, to increase stability in aqueous media. The latter modification method allowed chemical grafting of the silane to the aerogel surface (evidenced by FTIR and TGA) and resulted in certain hydrophobicity, as was evidenced via contact angle measurements: both aerogels possess a contact angle of ca. 100° after the gas hydrophobization, while for the pristine aerogels it was 50°. Furthermore, it was observed that the gas-phase silanization process is more applicable to apple aerogels.en2310-2861202211Multidisciplinary Digital Publishing Institutehttps://creativecommons.org/licenses/by/4.0/aerogelbio-basedorganichydrophobizationChemieBiowissenschaften, BiologieJournal Article2022-10-2610.15480/882.467110.3390/gels811069110.15480/882.4671Other