Abstract
Judiciously designed cyanine based fluorogenic probe (L) can exhibit interesting solvent polarity induced isomerization. The probe displayed a highly selective TURN-ON fluorescence response towards hypochlorite among various reactive oxygen species (ROS) and analytes in a mixed aqueous medium. The sensing process was attributed to the formation of a probe-OCl adduct which results in restricting the donor-acceptor extended conjugation. The detection limit was found to be as low as 3 $$\upmu \hbox {M}$$ . The proposed sensing mechanism is supported by mass spectrometric analysis and HPLC study. Cyanine based fluorogenic probe (L) selectively detect hypochlorite among various ROS with a detection limit of 3 $$\upmu \hbox {M}$$ in mixed aqueous medium through TURN-ON fluorescence response.
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