κ‑Carrageenan Associated with Fructose/Glycerol/Water LTTM: Toward Natural Thermosensitive Physical Gels

κ-Carrageenan was combined to a natural low-transition temperature mixture composed of fructose, glycerol, and water in a 1:1:5 molar ratio (FGW) to generate fully biobased physical gels through a simple method. The resulting gels can be easily prepared in various shapes. As for their hydrogel analo...

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Bibliographic Details
Published in:ACS sustainable chemistry & engineering 2022-11, Vol.10 (45), p.14817-14825
Main Authors: Caprin, Benoit, Viñado-Buil, Guadalupe, Sudre, Guillaume, Morelle, Xavier P., Da Cruz-Boisson, Fernande, Charlot, Aurélia, Fleury, Etienne
Format: Article
Language:English
Subjects:
Chemical Sciences
Polymers
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Summary:κ-Carrageenan was combined to a natural low-transition temperature mixture composed of fructose, glycerol, and water in a 1:1:5 molar ratio (FGW) to generate fully biobased physical gels through a simple method. The resulting gels can be easily prepared in various shapes. As for their hydrogel analogues, the rheological characterization of FGW-based samples evidenced thermosensitive gelation, attributed to the formation of aggregated H-bonded helices composed of κ-carrageenan chains. FGW-based gels exhibit a gel–sol transition temperature (T g/s) higher than the one of hydrogels with recoverable and reversible viscoelastic properties upon successive heating/cooling cycles. SAXS analysis revealed a more extended conformation of chains in FGW that leads to more physical cross-linking junction zones within the materials. Such peculiar spatial internal organization provides a mechanical reinforcement demonstrated by compression tests. In conclusion, the use of the FGW solvent allows for designing κ-carrageenan physical gels with enhanced thermal and mechanical properties.
ISSN:2168-0485
2168-0485
DOI:10.1021/acssuschemeng.2c04437