Molecular Engineering of Luminogens for High-Integrity Imaging of Hydrogen Polysulfides via Activatable Aggregation-Induced Dual-Color Fluorescence.

Understanding biological events associated with H 2 S n rather than mediated by H 2 S is of great significance but remains to be solved due to a lack of high-integrity imaging tools. In this study, we report a chemoselective probe for H 2 S n over H 2 S through the molecular engineering of luminogens. Based on our search for H 2 S n -activatable probes with high selectivity, we fabricate water-soluble and biocompatible nanoprobes. Such a designed nanoprobe shows rare aggregation-induced dual-color fluorescence responses to H 2 S n , lighting up bright emissions at 588 and 750 nm, respectively. By use of this activatable dual-color fluorescence, high-integrity identification of intracellular H 2 S n was successfully realized. Thus, our approach to H 2 S n -activated multicolor fluorescent probes could provide valuable insight into interrogating H 2 S n -mediated biological events.