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Three fluorescent glycosyl-rhodamine probes with good selectivity and sensitivity toward Hg2+ were developed. The detection limit of the probes toward Hg2+ is as low as 94.6 nM, which can be… Click to show full abstract
Three fluorescent glycosyl-rhodamine probes with good selectivity and sensitivity toward Hg2+ were developed. The detection limit of the probes toward Hg2+ is as low as 94.6 nM, which can be used to detect trace Hg2+ in solution. 1 : 1 stoichiometry was the most possible recognition mode of the probes toward Hg2+, and the OFF/ON mechanism of the probes toward Hg2+ could be attributed to the closing or opening of the rhodamine spiral structure caused by Hg2+. The detection of Hg2+ is reversible, which is beneficial for the recycling of probes. Moreover, these low cytotoxic probes can be safely and selectively applied to monitor Hg2+ levels in hepatocytes, and the fluorescence response follows a trend of Rho-Gal > Rho-Lac > Rho-Glu in HepG2 cells because the galactose group in Rho-Gal can selectively recognize ASGPR overexpressed on HepG2 cells.
Journal Title: Dalton transactions
Year Published: 2022
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