Natural Polyelectrolyte Hydrogels with Two Types of Cross-Links with Different Energy
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Karagandy University of the name of academician E.A. Buketov
Abstract
For the first time, gels of a polymer cross-linked by two types of ionic cross-links of different energies, namely
trivalent chromium (III) ions and divalent iron (II) ions, were prepared. The negatively charged polysaccharide
xanthan, a polyelectrolyte of natural origin, was used as a polymer. A study of xanthan gels crosslinked
with each cross-linker separately was carried out to identify the optimal concentrations of each crosslinker
for the production of a double cross-linked gel. The mechanical properties of hydrogels under oscillatory
shear deformations were then studied. It was demonstrated that the simultaneous use of two cross-linkers
resulted in a synergistic increase in the elastic modulus (plateau storage modulus) compared to gels crosslinked
with each cross-linker separately. For a gel with two types of cross-links, the elastic modulus was
16 Pa. In contrast, for gels cross-linked with either chromium (III) cations or iron (II) cations, the elastic
modulus was approximately 0.6 and 0.5 Pa, respectively. The strong effect can be attributed to the different
nature of cross-linking between xanthan macromolecules and chromium (III) and iron (II) cations, as well as
the different strength of the cross-links formed. The optimal range of pH values was determined in which a
synergistic increase in the elastic modulus of gels with two types of cross-links was observed compared to the
corresponding gels cross-linked with each cross-linker separately. Consequently, the concurrent utilization of
two cross-linking agents that generate cross-links with disparate energy levels represents an efficacious strategy
to improve the tensile strength of polymer hydrogels.
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Muravlev D.A. Natural Polyelectrolyte Hydrogels with Two Types of Cross-Links with Different Energy/D.A. Muravlev [et al]//Eurasian Journal of Chemistry. -2024. №2. Р.89-95.