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Disulfide-Cross-Linked Tetra-PEG Gels

Zhao Meng, Lucas Löser, Kay Saalwächter, Urs Gasser, Harm‐Anton Klok

2024Macromolecules18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The preparation of polymer gels via cross-linking of four-arm star-shaped poly(ethylene glycol) (Tetra-PEG) precursors is an attractive strategy to prepare networks with relatively well-defined topologies. Typically, Tetra-PEG gels are obtained by cross-linking heterocomplementary reactive Tetra-PEG precursors. This study, in contrast, explores the cross-linking of self-reactive, thiol-end functional Tetra-PEG macromers to form disulfide-cross-linked gels. The structure of the disulfide-cross-linked Tetra-PEG gels was studied with multiple-quantum NMR (MQ-NMR) spectroscopy and small-angle neutron scattering (SANS) experiments. In line with earlier simulation studies, these experiments showed a strong dependence of the relative fractions of the different network connectivities on the concentration of the thiol-end functional Tetra-PEG macromer that was used for the synthesis of the networks. Disulfide-cross-linked Tetra-PEG gels prepared at macromer concentrations below the overlap concentration ( c = 0.66 c *) primarily feature defect connectivity motifs, such as primary loops and dangling ends. For networks prepared at macromer concentrations above the overlap concentration, the fraction of single-link connectivities was found to be similar to that in amide-cross-linked Tetra-PEG gels obtained by heterocomplementary cross-linking of N -hydroxysuccinimide ester and amine functional Tetra-PEG macromers. Since disulfide bonds are susceptible to reductive cleavage, these disulfide-cross-linked gels are of interest, e.g., as reduction-sensitive hydrogels for a variety of biomedical applications.

Topics & Concepts

TetraMacromonomerEthylene glycolPEG ratioChemistryPolymer chemistryProton NMRSelf-healing hydrogelsAmine gas treatingCross-linkPolymerCopolymerOrganic chemistryEconomicsFinanceMedicinal chemistryHydrogels: synthesis, properties, applicationsGraphene and Nanomaterials ApplicationsAdvanced Sensor and Energy Harvesting Materials
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