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  • 1.
    Lopez-Sanchez, Patricia
    et al.
    Chalmers University of Technology, Sweden.
    Assifaoui, Ali
    Université de Bourgogne Franche-Comté, Sweden.
    Cousin, Fabrice
    Université Paris-Saclay, France.
    Moser, Josefina
    RISE Research Institutes of Sweden, Bioeconomy and Health, Agriculture and Food.
    Bonilla, Mauricio
    Basque Center for Applied Mathematics, Spain.
    Ström, Anna
    Chalmers University of Technology, Sweden.
    Impact of Glucose on the Nanostructure and Mechanical Properties of Calcium-Alginate Hydrogels2022In: Gels, E-ISSN 2310-2861, Vol. 8, no 2, article id 71Article in journal (Refereed)
    Abstract [en]

    Alginate is a polysaccharide obtained from brown seaweed that is widely used in food, pharmaceutical, and biotechnological applications due to its versatility as a viscosifier and gelling agent. Here, we investigated the influence of the addition of glucose on the structure and mechanical properties of alginate solutions and calcium-alginate hydrogels produced by internal gelation through crosslinking with Ca2+ . Using1H low-field nuclear magnetic resonance (NMR) and small angle neutron scattering (SANS), we showed that alginate solutions at 1 wt % present structural hetero-geneities at local scale whose size increases with glucose concentration (15–45 wt %). Remarkably, the molecular conformation of alginate in the gels obtained from internal gelation by Ca2+ crosslinking is similar to that found in solution. The mechanical properties of the gels evidence an increase in gel strength and elasticity upon the addition of glucose. The fitting of mechanical properties to a poroelastic model shows that structural changes within solutions prior to gelation and the increase in solvent viscosity contribute to the gel strength. The nanostructure of the gels (at local scale, i.e., up to few hundreds of Å) remains unaltered by the presence of glucose up to 30 wt %. At 45 wt %, the permeability obtained by the poroelastic model decreases, and the Young’s modulus increases. We suggest that macro (rather than micro) structural changes lead to this behavior due to the creation of a network of denser zones of chains at 45 wt % glucose. Our study paves the way for the design of calcium-alginate hydrogels with controlled structure for food and pharmaceutical applications in which interactions with glucose are of relevance. © 2022 by the authors.

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