Monitoring hypochlorite anion (ClO) in living cells is particularly meaningful and valuable, because over-exposure of the ClO may cause a potential health hazard towards animals and humans. Considering the special structure and properties of the gemini surfactant, a novel amphiphilic gemini-iridium complex Ir[(ppy-iso)(bpy-tmaBr)] (Ir-iso) with isoniazide as a recognition site for ClO was designed. The Ir-iso possessed an excellent water-solubility as well as a strong ClO binding capacity, as revealed from the rapid response of emission signal towards ClO. It was worth noting that such probe had a highly-specific selectivity with a low detection limit (20.5 nM) and was suitable in physiological environment. The cell viability assay, cell imaging, and co-location studies further proved that the Ir-iso had little cytotoxicity and was specifically localized in the mitochondria of breast cancer cells, being a promising candidate of chemo-sensor to detect the endogenous ClO in living cells.
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