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Defect-controlled softness, diffusive permeability, and mesh-topology of metallo-supramolecular hydrogels

Paola Nicolella, Martha Koziol, Lucas Löser, Kay Saalwächter, Mostafa Ahmadi, Sebastian Seiffert

2022Soft Matter27 citationsDOIOpen Access PDF

Abstract

the network mesh-topology by introducing connectivity defects. A model polymer network is realized based on a 4-arm poly(ethylene glycol) (pEG) where each arm is capped with terpyridine moieties that are capable of forming metallo-supramolecular complexes with zinc ions. In this model network, we insert 8-arm pEG macromolecules that are functionalized with terpyridine at different ratios to create connectivity defects. With an increasing amount of 8-arm pEG, the polymer network forms more loops, as quantified by double quantum-NMR. This doped network shows an enhanced self-diffusivity of the building block molecules within the network, as examined by fluorescence recovery after photobleaching, and a higher softness, as investigated by oscillatory shear rheology. With these findings, we show that it is possible to tune the diffusivity and softness of hydrogels with defects in a rational fashion.

Topics & Concepts

Self-healing hydrogelsEthylene glycolSupramolecular chemistryMaterials scienceInterpenetrating polymer networkPolymerThermal diffusivityPEG ratioTopology (electrical circuits)NanotechnologyPolymer chemistryChemical engineeringMoleculeChemistryComposite materialOrganic chemistryPhysicsFinanceEconomicsCombinatoricsQuantum mechanicsEngineeringMathematicsHydrogels: synthesis, properties, applicationsSurfactants and Colloidal SystemsPolymer Surface Interaction Studies
Defect-controlled softness, diffusive permeability, and mesh-topology of metallo-supramolecular hydrogels | Litcius