Transforming soy proteins into nanoporous aerogels using supercritical carbon dioxide drying
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Abstract
This study investigated the formation and characterization of aerogels from soy protein isolate (SPI) at different pHs (6-10) using supercritical carbon dioxide (SC-CO2) drying. The extraction yield of proteins was 33% with 92% purity. The formed SPI hydrogels and aerogels were characterized for their rheological properties, textural properties, morphology, crystallinity, chemical structure, thermal stability, and solubility. The gels formed at pH values of 7.0-10.0 were able to form strong gels, where all the gels showed a shear-thinning behavior. The hardness of the gels increased with the increase in pH from 7.0 to 10.0. The resulting SPI aerogels upon SC-CO2 drying showed outstanding properties, such as surface areas of 222-278 m²/g, pore sizes of 8-11 nm, and pore volumes of 1.88-3.13 cm3/g. Their densities were ~0.21 g/cm3 with high porosities of ~83%. Further, SEM images of aerogels showed three-dimensional open porous structures, where the structures were more heterogeneous at higher pH values, leading to a higher surface area. XRD and FTIR data provided information about the crystallinity and changes in the chemical structure of proteins, respectively. The main thermal degradation peak for aerogels was ~295 °C, which was slightly lower than that for SPI powder at 303 °C. The water solubility of SPI powder increased with the formation of aerogels from 17-19% to 30-36%. Overall, this study provides one of the first reports on generating SPI aerogels with high surface areas for their potential use in food, pharmaceutical, and biomaterial industries.
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00
- unpaywall
- last seen: 2026-07-09T06:39:34.564547+00:00