Enhanced Mechanophore Activation in Hydrogel Networks Driven by Swollen Network Pretension

events hall

Ms. Meytal Forer – M.Sc. Candidate

04/09/2025

David Wang Auditorium, 3rd Floor, Dalia Maydan Bldg.

13:30

There is often a discrepancy between the strain required to activate mechanophores compared to incorporation in bulk materials, inhibiting these force sensors from many practical, commercial, and biological uses. The difference is particularly pronounced for biomimetic networks such as viscoelastic hydrogels, in which the distribution of strain is unclear due to dissipation. Here we show the activation of spiropyran mechanophores in alginate networks is related to cross-linking characteristics by comparing ionic and covalent bonds. Through a simple shear force setup using syringes and Bernoulli’s principle, we observe higher activation of the spiropyran in the ionic gel, regardless of mechanical versus ultra-violet light stimulus. This may be driven predominately by differences in network pretension due to swelling, as the ring closing reaction of merocyanine to spiropyran was similarly affected. These insights shed a new light on understanding force propagation in complex networks, leading to higher mechanophore sensitivities in biologically-similar materials.

Supervisor: Asst. Prof. Joshua M. Grolman