Synthesis of the new scorpiand ligand L composed of a [9]aneN3 macrocyclic ring bearing a CH2CH2NHCH2-anthracene tail is reported. L forms both cation (Zn2+) and anion (phosphate, benzoate) complexes. In addition, the zinc complexes of L bind these anions. The equilibrium constants for ligand protonation and complex formation were determined in 0.1 M NaCl aqueous solution at 298.1 ±0.1 K by means of potentiometric (pH-metric) titrations. pH Controlled coordination/detachment of the ligand tail to Zn2+ switch on and off the fluorescence emission from the anthracene fluorophore. Accordingly, L is able to sense Zn2+ in the pH range 6-10 down to nM concentrations of the metal ion. L can efficiently sense Zn2+ even in the presence of large excess of coordinating anions, such as cyanide, sulphide, phosphate and benzoate, despite their ability to bind the metal ion.
Sensing Zn2+ in aqueous solution with a fluorescent scorpiand macrocyclic ligand decorated with an anthracene bearing tail / Savastano M.; Fiaschi M.; Ferraro G.; Gratteri P.; Mariani P.; Bianchi A.; Bazzicalupi C.. - In: MOLECULES. - ISSN 1420-3049. - ELETTRONICO. - 25:(2020), pp. 1-15. [10.3390/molecules25061355]
Sensing Zn2+ in aqueous solution with a fluorescent scorpiand macrocyclic ligand decorated with an anthracene bearing tail
Savastano M.;Ferraro G.;Gratteri P.;Mariani P.;Bianchi A.
;Bazzicalupi C.
2020
Abstract
Synthesis of the new scorpiand ligand L composed of a [9]aneN3 macrocyclic ring bearing a CH2CH2NHCH2-anthracene tail is reported. L forms both cation (Zn2+) and anion (phosphate, benzoate) complexes. In addition, the zinc complexes of L bind these anions. The equilibrium constants for ligand protonation and complex formation were determined in 0.1 M NaCl aqueous solution at 298.1 ±0.1 K by means of potentiometric (pH-metric) titrations. pH Controlled coordination/detachment of the ligand tail to Zn2+ switch on and off the fluorescence emission from the anthracene fluorophore. Accordingly, L is able to sense Zn2+ in the pH range 6-10 down to nM concentrations of the metal ion. L can efficiently sense Zn2+ even in the presence of large excess of coordinating anions, such as cyanide, sulphide, phosphate and benzoate, despite their ability to bind the metal ion.
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117.Savastano_Molecules20_SensingZn2+.pdf
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