Hypoxia-Triggered In Situ Self-Assembly of a Charge Switchable Azo Polymer with AIEgens for Tumor Imaging.

In recent years, stimuli-responsive in situ self-assembly fluorescent probes for tumor imaging, which leverage the advantage of efficient penetrability and satisfactory accumulation, have attracted much attention. In this work, we rationally integrate charge switchable azobenzene moiety and long wavelength aggregation-induced emission fluorogens (AIEgens) into one water-soluble polymer to construct the hypoxia-triggered in situ self-assembly fluorescent probe for tumor imaging. Due to the good water solubility and the quenching effect of azobenzene moiety, the AIEgens containing polymer showed no significant fluorescence. Under a tumor hypoxic environment, the enzymatic reduction of azobenzene triggered cationic quaternary ammonium converting into anionic carboxylate. Then self-assembly nanoparticles were obtained, driven by the electrostatic interaction between negatively charged carboxylate ion and positively charged AIEgens, which emitted a strong orange-red fluorescence.