2015
DOI: 10.1007/s12221-015-0953-5
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“Turn-on” fluorescent and colorimetric determination of Cu2+ ions in aqueous media based on a Rhodamine-N-phenyl Semicarbazide derivative

Abstract: We report the design and synthesis of a novel chemosensor (RGPS) rhodamine-based indicator for selective detection of Cu 2 + ion. Sensing behavior toward various metal ions (M=Hg 2 +

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Cited by 12 publications
(3 citation statements)
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“…However, the addition of Hg II results in only a minimal enhancement in the emission. Recently, Park and co‐workers have described “turn‐on” fluorescence sensor 51 based on rhodamine that selectively detects Cu II ions over others metal ions such as Hg II , Co II , K I , Cs I , Ag I , Pb II , Zn II , Mg II , Fe III , Ni II , Li I , and Al III . Probe 51 shows unprecedented colorimetric (from colorless to pink) and fluorometric (from colorless to yellowish green) changes in the presence of Cu II on the basis of the ring‐opening mechanism of the rhodamine spirolactam with a 1:1 (ligand/metal) binding ratio.…”
Section: Green Fluorescent Dyesmentioning
confidence: 99%
“…However, the addition of Hg II results in only a minimal enhancement in the emission. Recently, Park and co‐workers have described “turn‐on” fluorescence sensor 51 based on rhodamine that selectively detects Cu II ions over others metal ions such as Hg II , Co II , K I , Cs I , Ag I , Pb II , Zn II , Mg II , Fe III , Ni II , Li I , and Al III . Probe 51 shows unprecedented colorimetric (from colorless to pink) and fluorometric (from colorless to yellowish green) changes in the presence of Cu II on the basis of the ring‐opening mechanism of the rhodamine spirolactam with a 1:1 (ligand/metal) binding ratio.…”
Section: Green Fluorescent Dyesmentioning
confidence: 99%
“…The complexation ratio of the fluorescent complex formed by the combination of sulfate ions and AMDP was researched by the Job plot method [43,44], as shown in Figure 6a. This result was confirmed by the Job plot method in which the fluorescence intensity exhibits a maximum at a molar fraction of approximately 0.5, indicating that a 1:1 stoichiometry was the most likely binding mode for AMDP and SO 4 2− ion.…”
Section: The Complexation Ratio and Fluorescence Lifetime Of The Fluorescent Complexmentioning
confidence: 99%
“…Rhodamine uorophores have excellent photophysical properties, such as large absorption extinction coefficients, sharp uorescence emissions and high uorescence quantum yields. Moreover, they can undergo great uorescence enhancements via a structural change from the spirocyclic state (non-uorescent) to the ring-open (uorescent) state, induced by metal ions, inorganic anions, [10][11][12][13] etc. Their absorption and emission spectra appear at a longer wavelength (ca.…”
Section: Introductionmentioning
confidence: 99%