Fabrication of novel water glass-based monolithic aerogels with fibrous skeleton under alkaline for oil sorption and thermal evaporation

“…9–12 However, current fiber spinning methods lack the ability to precisely control both the macro- and microstructures of fibrous aerogels simultaneously. Post shaping of these fibrous aerogels would result in fluctuations in interlayer spaces or thicknesses, 13,14 consequently impeding the overall performance of the material. Hence, further optimization of the spinning process to control the architecture and microstructure of 3D fibrous aerogels is crucial for enhancing their application potential.…”

Solution blow spinning of elastic 3D complex ZrO₂@mullite nanofibrous aerogels toward customized thermal insulation

“…9–12 However, current fiber spinning methods lack the ability to precisely control both the macro- and microstructures of fibrous aerogels simultaneously. Post shaping of these fibrous aerogels would result in fluctuations in interlayer spaces or thicknesses, 13,14 consequently impeding the overall performance of the material. Hence, further optimization of the spinning process to control the architecture and microstructure of 3D fibrous aerogels is crucial for enhancing their application potential.…”

Solution blow spinning of elastic 3D complex ZrO₂@mullite nanofibrous aerogels toward customized thermal insulation

Fabrication of elastic SiO2 aerogels with prominent mechanical strength and stability reinforced by SiO2 nanofibers and polyurethane for oil adsorption

Formamide as novel catalyst for the gelation of water glass to synthesize silica aerogel monolith