Synthesis, Characterization, and Ion Sensing Application of Pyrene-Containing Chemical Probes

A novel pyrene‐functionalized thiophene compound (Thi‐Pyr) and pyrene‐functionalized styrene polymers (P7–9) are synthesized via 1,3‐dipolar cycloaddition reaction between the azide functional groups of the precursors and 1‐ethynylpyrene. Glass transition temperature of the styrene polymers increase...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2015-05, Vol.216 (9), p.939-949
Main Authors: Karagollu, Osman, Gorur, Mesut, Gode, Fethiye, Sennik, Busra, Yilmaz, Faruk
Format: Article
Language:English
Subjects:
Anions
Bands
click chemistry
Emission
Emissions
Excimers
fluorescence spectroscopy
ion sensing
Monomers
optic chemical probes
Pyrenes
styrene polymers
Styrenes
Thiophenes
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Summary:A novel pyrene‐functionalized thiophene compound (Thi‐Pyr) and pyrene‐functionalized styrene polymers (P7–9) are synthesized via 1,3‐dipolar cycloaddition reaction between the azide functional groups of the precursors and 1‐ethynylpyrene. Glass transition temperature of the styrene polymers increases remarkably upon the covalent attachment of the pyrene unit through triazole linkers, whereas the thermal stabilities of the styrene polymers are not affected by the incorporation of pyrene moieties. Thi‐Pyr exhibits the characteristic pyrene monomer emission bands; on the other hand, P7–9 show the excimer emission bands of pyrene due to the excitation of ground state dimeric species. The monomer emissions of Thi‐Pyr and the excimer emissions of P7–9 are distinguishably increased by the addition of HP2O73−, Cl−, and Br− anions. The responses of Thi‐Pyr and P7–9 to the addition of HP2O73− are stronger than any other anions, indicating their selectivity to HP2O73− anion to some extent. Novel, pyrene‐functionalized thiophene compound (Thi‐Pyr) and styrene polymers (P7–9) are prepared via “click” chemistry techniques. Thi‐Pyr exhibits the characteristic pyrene monomer emission bands; on the other hand, P7–9 shows the excimer emission bands of pyrene. The fluorescence emissions of Thi‐Pyr and P7–9 are remarkably increased by the addition of HP2O73−, Cl−, and Br− anions.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.201400610