Quaternary Ammonium-Based Ionosilica Hydrogels as Draw Solutes in Forward Osmosis

Abstract: In the last few years, forward osmosis (FO) has attracted increasing interest as a sustainable technique for water desalination and wastewater treatment. However, FO remains as an immature process principally due to the lack of efficient and easily recyclable draw solutes. In this work, we report that ionosilica hydrogels based on quaternary ammonium halide ionosilica are efficient draw solutes in FO. Fluidic ionosilica hydrogels were obtained via hydrolysis-polycondensation reactions of a trisilylated quatern… Show more

“…33 Ionosilicas are highly modulable functional materials featuring a large range of surface and interface properties. 34,35 They found applications in water treatment and upgrading, 36,37 separation 38,39 and drug delivery. 40–42 Due to the high chemical similarity between ionosilicas and ILs and with the aim of studying the confinement of ILs within an ionosilica matrix, we recently focused on the formation of nanocomposites via hydrolysis–polycondensation reactions of ionosilica precursors in the presence of ILs.…”

Textural control of ionosilicas by ionic liquid templating

“…33 Ionosilicas are highly modulable functional materials featuring a large range of surface and interface properties. 34,35 They found applications in water treatment and upgrading, 36,37 separation 38,39 and drug delivery. 40–42 Due to the high chemical similarity between ionosilicas and ILs and with the aim of studying the confinement of ILs within an ionosilica matrix, we recently focused on the formation of nanocomposites via hydrolysis–polycondensation reactions of ionosilica precursors in the presence of ILs.…”

Textural control of ionosilicas by ionic liquid templating

Design, synthesis, and application of thermally responsive draw solutes for sustainable forward osmosis desalination: A review