An Aggregation-Induced Emission (Aie)-Active Fluorescent Chemodosimeter For Selective Sensing Of Hypochlorite In Water And Solid State: Endogenous Detection Of Hypochlorite In Live Cells

Hypochlorite (ClO- ) being an important reactive oxygen species plays a crucial role in the oxidative damage to tissue and other various diseases. Highly selective, sensitive, and quick detection of aberrant ClO- is vital for the protection of living organisms and the environment. Accordingly, fluorescent molecules are most effective sensor system for ClO- . Herein, we have synthesized and characterized a water soluble AIE-active tetraphenylethylene (TPE)-based fluorescent molecule TPE-Py+ (TPP) for rapid (10 s) and selective detection of ClO- based on ClOinduced oxidation of N-alkylpyridinium to N-methyl-2-pyridone. ClO- mediated aggregation-induced emission (AIE) enhancement corresponds to turn-on response. Scanning electron microscopic (SEM) study supports AIE behavior of the probe upon treatment with ClO- . The detection limit of TPP for ClO- was found to be 8.89 nM and exhibited high selectivity among other possibly interfering analytes (ROS, RNS, other ions). TPP-based handy test kits were developed for the solid-state detection of ClO- in environmental samples. Furthermore, our probe was effective in detecting ClO- in real water samples, fetal bovine serum and able to detect endogenous ClO- in live cell.