Fe2O3/SiO2 composite aerogels powders for high-temperature thermal insulation based on EDTA chelated aqueous precursor

SiO ₂ aerogel is a typical thermal insulation material suitable for varied high temperature industrial applications. However, its radiative transparency seriously hampers its application scenario. Herein, we integrated infrared (IR) opacified Fe ₂ O ₃ nanoparticles into silica aerogel system and developed a Fe ₂ O ₃ /SiO ₂ composite aerogel (FSA) by using industrial water glass and ambient pressure drying process. Especially, we chelated Fe ³⁺ with disodium ethylenediaminetetraacetic (EDTA-2Na) to avoid the loss of Fe ³⁺ in the gelling, solvent-exchanging and hydrophobic modification processes. FSA powders with 3-11% concentration exhibit an amorphous structure, high porosity with small nanopores (11-12 nm). The EDS analysis confirms the presence of Fe in the aerogel framework. The high-temperature thermal insulation properties of the FSA powders were enhanced compared with the pure SiO ₂ aerogel powders, yielding a cold surface temperature of 456 ℃ after heating at 600 ℃ for 30 min, 26 ℃ lower than pure SiO ₂ aerogel. The EDTA-2Na chelating agent improves the dispersion of Fe ³⁺ and further reduces the temperature by 6 ℃, demonstrating its positive effect on the insulation performance.