Abstract
The ability to assemble chemically different gelator molecules into complex supramolecular hydrogels provides excellent opportunities to construct functional soft materials. Herein, we demonstrate the formation of hybrid nucleotide–amino acid supramolecular hydrogels. These are generated by the silver ion (Ag+)-triggered formation of silver–guanosine monophosphate (GMP) dimers, which undergo self-assembly through non-covalent interactions to produce nanofilaments. This process results in a concomitant pH reduction due to the abstraction of a proton from the guanine residue, which triggers the in situ gelation of a pH-sensitive amino acid, N-fluorenylmethyloxycarbonyl tyrosine (FY), to form nucleotide–amino acid hybrid hydrogels. Alterations in the supramolecular structures due to changes in the assembly process are observed, with the molar ratio of Ag:GMP:FY affecting the assembly kinetics, and the resulting supramolecular organisation and mechanical properties of the hydrogels. Higher Ag:GMP stoichiometries result in almost instantaneous gelation with non-orthogonal assembly of the gelators, while at lower molar ratios, orthogonal assembly is observed. Significantly, by increasing the pH as an external stimulus, nanofilaments comprising FY can be selectively disassembled from the hybrid hydrogels. Our results demonstrate a simple approach for the construction of multicomponent stimuli-responsive supramolecular hydrogels with adaptable network and mechanical properties.
Highlights
Supramolecular gels are formed from the assembly of a single compound, known as a gelator, into filaments that laterally associate and entangle to produce a network that gels a solvent
We show that the gelation of a nucleotide, guanosine monophosphate (GMP), can be exploited as a trigger for the in situ gelation of an amino acid derivative, N-fluorenylmethyloxycarbonyl tyrosine (FY)
We exploit a chemical signal generated during the silver ion-mediated dimerisation and gelation of guanosine molecules to trigger the assembly of an amino acid derivative
Summary
Supramolecular gels are formed from the assembly of a single compound, known as a gelator, into filaments that laterally associate and entangle to produce a network that gels a solvent. For the multicomponent gels prepared with a 1:1 Ag:GMP ratio (A, B, and C), a carbamate peak at 1693 cm−1 was observed for all samples (Figure 4a,b), indicating supramolecular assembly of the FY gelator. All hybrid gel samples (A–E) showed enhanced yield stresses compared to the single-component hydrogels, which could be attributed to the highly entangled network of nanofilaments originating from the self-assembly of both the nucleotide and amino acid gelators. At both Ag:GMP ratios, the measured elastic moduli were higher when the FY concentration was lower than the GMP concentration. The peaks observed could instead be due to the formation of soluble G-quartets, which could prevent re-assembly into a hydrogel [39,86]
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