pH Modulated Formation of Complexes with Various Stoichiometry between Polymer Network and Fe(III) in Thermosensitive Gels Modified with Gallic Acid

Abstract: Thermoresponsive gels based on N-isopropylacrylamide functionalized with amino groups were modified with gallic acid, with gallate (3,4,5-trihydroxybenzoic) groups being introduced into the polymer network. We investigated how the properties of these gels were affected at varying pH, by the formation of complexes between the polymer network of the gels and Fe3+ ions (which form stable complexes with gallic acid, exhibiting 1:1, 1:2, or 1:3 stoichiometry, depending on pH). The formation of complexes with varyin… Show more

“…14 The rapid formation of mono-complex hydrogels at acidic pH can be attributed to the immediate complexation driven by the abundant presence of aromatic hydroxyl groups, in contrast to DOPA-functionalized hydrogels. 33,39 Even though the tris-complex hydrogels at basic pH formed a true hydrogel ( G ′ > G ′′) rapidly at low frequency, the instant cohesive interaction of tris-coordination caused inhomogeneity of the gel structure. Compared to mono- and bis-coordination, those gels displayed slower gelation, providing the time to form the gels homogeneously.…”

A comprehensive study on rheological properties of photocrosslinkable gallol-metal complexed hyaluronic acid-based biomaterial inks

“…14 The rapid formation of mono-complex hydrogels at acidic pH can be attributed to the immediate complexation driven by the abundant presence of aromatic hydroxyl groups, in contrast to DOPA-functionalized hydrogels. 33,39 Even though the tris-complex hydrogels at basic pH formed a true hydrogel ( G ′ > G ′′) rapidly at low frequency, the instant cohesive interaction of tris-coordination caused inhomogeneity of the gel structure. Compared to mono- and bis-coordination, those gels displayed slower gelation, providing the time to form the gels homogeneously.…”

A comprehensive study on rheological properties of photocrosslinkable gallol-metal complexed hyaluronic acid-based biomaterial inks

“…Concurrently, both the volume phase transition temperature and swelling ratio significantly decrease, providing insights for designing pH-sensitive hydrogels. 33,36,37…”

Gallic acid: design of a pyrogallol-containing hydrogel and its biomedical applications

Electrostimulated reversible swelling/shrinking behavior of electroactive p(AA-BAC)/Cu(II) microgel monolayer on Au electrode surface