2017
DOI: 10.5155/eurjchem.8.3.314-316.1579
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Abstract: In this paper, a high selective fluorescent sensor for nickel ion based on borondipyrromethene (BODIPY) has been studied. Upon addition of Ni(II) ion, the fluorescence of sensor (compound 1) would be quenched, and the selectivity towards Ni(II) ion over Ag(I), Cd(II), Cu(II), Fe(III), Hg(II), Pb(II), and Zn(II) is good in acetonitrile, there is almost no interference from other heavy metal ions. The stoichiometry of complexation for compound 1 with Ni(II) ion is 1:1, and the quenching process could be reversed… Show more

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Cited by 4 publications
(1 citation statement)
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“…Higher-order BODIPY architectures, including dimers, trimers, and polymers, have been reported, and many BODIPY constructs maintain high quantum yields even in the solid state . As a result of their favorable properties, BODIPY fluorophores have been used in a number of luminescent sensing schemes, including as high quantum yield energy acceptors from aromatic toxicant donors, , as part of white light-emitting constructs, , and as transducing elements for the detection of phosgene, mercury and copper cations, and many other analytes. …”
Section: Common Fluorophoresmentioning
confidence: 99%
“…Higher-order BODIPY architectures, including dimers, trimers, and polymers, have been reported, and many BODIPY constructs maintain high quantum yields even in the solid state . As a result of their favorable properties, BODIPY fluorophores have been used in a number of luminescent sensing schemes, including as high quantum yield energy acceptors from aromatic toxicant donors, , as part of white light-emitting constructs, , and as transducing elements for the detection of phosgene, mercury and copper cations, and many other analytes. …”
Section: Common Fluorophoresmentioning
confidence: 99%