Dual‐Mode Calixarene‐Based Chemosensor: Highly Selective Fluorogenic Detection of Hg2+ and Chromogenic Detection of Cu2+ with a Single Ionophore

A fluorescent molecular sensor has been synthesized incorporating a ReI‐bipyridine moiety as a fluorogenic unit and amide‐incorporated modified calix[4]arene as recognition moiety. This molecule behaves as a dual sensor, it exhibited highly selective turn‐on fluorescent sensing for Hg2+ and naked ey...

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Bibliographic Details
Published inEuropean journal of inorganic chemistry Vol. 2019; no. 2; pp. 199 - 205
Main Authors Patra, Subrata, Boricha, Vinod P., Paul, Parimal
Format Journal Article
LanguageEnglish
Published WEINHEIM Wiley 17.01.2019
Wiley Subscription Services, Inc
Subjects
Absorption spectra
Calixarenes
Chemical sensors
Chemical synthesis
Chemistry
Chemistry, Inorganic & Nuclear
Chemoreceptors
Copper
Fluorescence
Inorganic chemistry
Mercury
Mercury (metal)
Metal ions
Nitrogen atoms
Oxygen atoms
Physical Sciences
Science & Technology
Selectivity
Sensors
RECOGNITION
Fluorescence
ION
FLUORESCENT SENSORS
CARBONYL-COMPLEXES
Calixarenes
Sensors
LIGAND
Copper
Mercury
BINDING
ZN2
CHEMODOSIMETER
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Summary:A fluorescent molecular sensor has been synthesized incorporating a ReI‐bipyridine moiety as a fluorogenic unit and amide‐incorporated modified calix[4]arene as recognition moiety. This molecule behaves as a dual sensor, it exhibited highly selective turn‐on fluorescent sensing for Hg2+ and naked eye colourimetric detection of Cu2+ over a wide range of metal ions. The ion‐competition study revealed no significant interference from any other metal ion used in this study. Mechanistic studies revealed that the combination of soft (nitrogen) and hard (oxygen) donors in the large and flexible macrocyclic coordination site promoted interaction of Hg2+ with nitrogen atoms, which perturbed the fluorescence properties of the molecule restricting the PeT process, and the coordination of Cu2+ with oxygen atoms resulted in new ICT absorption band in the visible region triggering color change. This is a rare example, particularly with calixarene, where a single receptor exhibited dual‐mode selectivity in different sensing channels. A new calixarene‐based molecular sensor has been developed, which exhibits high selectivity for Hg2+ in the luminescence channel (turn‐on) and for Cu2+ in the UV‐Vis channel with sharp colour change. A combination of soft and hard donor atoms in the flexible macrocyclic coordination site promoted the dual‐mode of coordination with different metal ions.
ISSN:1434-1948
1099-0682
DOI:10.1002/ejic.201800925