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Canola protein aerogels via salt-induced gelation and supercritical carbon dioxide drying

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posted on 2023-05-03, 22:18 authored by Sarah FitzPatrickSarah FitzPatrick, Santanu Deb-Choudhury, Steve RanfordSteve Ranford, Mark Staiger
Canola protein is used to produce novel, mesoporous, plant-based aerogels through a salt-induced gelation technique and supercritical carbon dioxide drying. The use of calcium chloride in formulation permits the preservation of gel monoliths during solvent exchange processing, customarily a major challenge in aerogel preparation. The gels could be successfully converted to aerogels by supercritical drying using accessible, off-the-shelf instrumentation, rather than the purpose-built systems commonly used in aerogel research. The use of calcium chloride represents a novel approach to canola protein gelation, achieving crosslinking via an environmentally-friendly approach. The first-ever supercritically-dried canola aerogels are shown to be mesoporous with an approximate density and specific surface area of 0.2 g/cm3 and 113 m2/g, respectively. The typical low-densities (0.03 – 0.5 g/cm3) and high surface areas (50 – 600 m2/g) of bioaerogels lend themselves to novel pharma- and nutraceutical applications, with canola aerogels now another addition to this family of advanced materials.

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© 2022 Elsevier Ltd. All rights reserved.

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

Elsevier

Journal title

European Polymer Journal

ISSN

0014-3057

Citation

FitzPatrick, S. E., Deb-Choudhury, S., Ranford, S., & Staiger, M. P. (2022). Canola protein aerogels via salt-induced gelation and supercritical carbon dioxide drying. European Polymer Journal, 168, 111126. https://doi.org/10.1016/j.eurpolymj.2022.111126

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