| Abstract: | Carboxymethyl cellulose (CMC) is functionalized with norbornene groups to undergo thiol‐norbornene cross‐linking reactions. Hydrogels synthesized from a single norbornene‐modified carboxymethyl cellulose (NorCMC) via a light‐initiated thiol‐ene cross‐linking reaction with a variety of dithiol cross‐linkers yield hydrogels with a tunable compression modulus ranging from 1.7 to 103 kPa. Additionally, thermoresponsiveness is spatiotemporally imparted to NorCMC hydrogels by photopatterning a dithiol‐terminated poly(N‐isopropyl acrylamide) cross‐linker, enabling swelling and topological control of the hydrogels as a function of incubation temperature. NorCMC hydrogels are cytocompatible as the viability of encapsulated human mesenchymal stem cells (hMSCs) is greater than 85% after 21 d while using a variety of cross‐linkers. Moreover, hMSCs can remodel, adhere, and spread in the NorCMC matrix cross‐linked with a matrix metalloproteinase‐degradable peptide, further demonstrating the utility of these materials as a tunable biomaterial. |
