Mechano‐responsive fluorescent gel based on tetraphenylethylene‐crosslinked dynamic covalent network

The rapid development of mechano‐responsive fluorescence has been driven by its promising applications in the fields of sensors, information encryption, and anti‐counterfeiting. However, designing mechanophores that can exhibit fluorescence changes under relatively low force remains challenging. In this study, a mechano‐responsive fluorescent gel was developed using a tetraphenylethylene derivative as a cross‐linker, producing a dynamic covalent network that exhibits increased fluorescence under tensile stress. Based on controlled experimental studies and molecular modeling calculations, the fluorescence enhancement by external forces was attributed to the restriction of intramolecular motion in tetraphenylethylene by macromolecular chain orientation. In time‐dependent experiments, due to the exchange of dynamic covalent bonds, the stress relaxation and the decrease in fluorescence intensity of the gel at fixed strain occurred simultaneously, demonstrating the potential of this fluorescence as an indication of internal stress through aggregation‐induced emission (AIE) type mechanophore.