Nanostructured Hydrogels of Carboxylated Cellulose Nanocrystals Crosslinked by Calcium Ions
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Gels
Abstract
Bio-based eco-friendly cellulose nanocrystals (CNCs) gain an increasing interest for diverse
applications. We report the results of an investigation of hydrogels spontaneously formed by the
self-assembly of carboxylated CNCs in the presence of CaCl2 using several complementary techniques:
rheometry, isothermal titration calorimetry, FTIR-spectroscopy, cryo-electron microscopy,
cryo-electron tomography, and polarized optical microscopy. Increasing CaCl2 concentration was
shown to induce a strong increase in the storage modulus of CNC hydrogels accompanied by the
growth of CNC aggregates included in the network. Comparison of the rheological data at the same
ionic strength provided by NaCl and CaCl2 shows much higher dynamic moduli in the presence of
CaCl2, which implies that calcium cations not only screen the repulsion between similarly charged
nanocrystals favoring their self-assembly, but also crosslink the polyanionic nanocrystals. Crosslinking
is endothermic and driven by increasing entropy, which is most likely due to the release of water
molecules surrounding the interacting COO− and Ca2+ ions. The hydrogels can be easily destroyed
by increasing the shear rate because of the alignment of rodlike nanocrystals along the direction of
flow and then quickly recover up to 90% of their viscosity in 15 s, when the shear rate is decreased
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Nanostructured Hydrogels of Carboxylated Cellulose Nanocrystals Crosslinked by Calcium Ions/ Ospennikov A.S. [et al.] // Gels - 2024 - №10( 77) -- pp. 1-15.