Grübel, JanaJanaGrübelL Albernaz, VanessaVanessaL AlbernazTsianaka, AnastasiaAnastasiaTsianakaJauch, Corinna O.Corinna O.JauchQuirin, SiliaSiliaQuirinKerger, ChristianChristianKergerKohl, ChristinaChristinaKohlBurger-Kentischer, AnkeAnkeBurger-KentischerTovar, GünterGünterTovarSouthan, AlexanderAlexanderSouthan2023-10-022023-10-022023https://publica.fraunhofer.de/handle/publica/45118810.1038/s41598-023-36956-x2-s2.0-8516338571237365250Hydrogels can be equipped with functional groups for specific purposes. Isothiouronium groups can enhance adsorptivity, or allow coupling of other functional groups through mild reactions after transformation to thiol groups. Here we present a method to prepare multifunctional hydrogels by introducing isothiouronium groups into poly(ethylene glycol) diacrylate (PEGDA) hydrogels, and convert them into thiol-functionalized hydrogels by the reduction of the isothiouronium groups. For this purpose, the amphiphilic monomer 2-(11-(acryloyloxy)-undecyl)isothiouronium bromide (AUITB), containing an isothiouronium group, was synthesized and copolymerized with PEGDA. In this convenient way, it was possible to incorporate up to 3 wt% AUITB into the hydrogels without changing their equilibrium swelling degree. The successful functionalization was demonstrated by surface analysis of the hydrogels with water contact angle measurements and increased isoelectric points of the hydrogel surfaces from 4.5 to 9.0 due to the presence of the isothiouronium groups. The hydrogels showed a suitability as an adsorbent, as exemplified by the pronounced adsorption of the anionic drug diclofenac. The potential of the functionalization for (bio)conjugation reactions was demonstrated by the reduction of isothiouronium groups to thiols and subsequent immobilization of the functional enzyme horseradish peroxidase on the hydrogels. The results show that fully accessible isothiouronium groups can be introduced into radically cross-linked hydrogels.enPreparation of multifunctional hydrogels with accessible isothiouronium groups via radical cross-linking copolymerizationjournal article