Abstract
A highly selective fluorescent probe (SiROPS) based on Si-rhodamine (SiR) towards F− was investigated. SiROPS can realize the NIR detection of F− because of the long fluorescent wavelength (λex = 650 nm, λem = 669 nm). The near-IR optical and the ratiometric fluorescence type signaling were realized by employing fluoride-selective cleavage of the latent thiophosphinated probe in mixed aqueous media. The cleavage of F− to the ortho positions of dimethylphosphinothionyl group in the meso aryl involves the suppression of internal rotation upon phosphorylation of a reactive phenolate and the activating rotation of o-OH, which resulting in a large fluorescence “Turn-Off” response. The detection limit of the probe to F− was 48 nM in the dynamic range of 0.5 μM–20 μM. In addition, the proposed probe has been used to detect F− in water samples and toothpaste samples with satisfying results.
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