Pichandi Ashokkumar » Публикация
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Опубликовано
2010-11-04
Опубликовано на SciPeople2010-11-04 05:41:20
ОрганизацияNCUFP
ЖурналChemistry: A European Journal
Fluorescence Spectroscopic Evidence for Hydrogen Bonding and Deprotonation Equilibrium between Fluoride and a Thiourea Derivative
Chem. Eur. J. 2010, 16, 13271 – 13277
Аннотация
Interaction of anions with
thiourea-linked acridinedione fluorophore
was studied by absorption,
1H NMR, steady-state and time-resolved
fluorescence techniques. Addition
of AcO and H2PO4 shows a genuine
H-bonded complex with thiourea
receptor; whereas, F shows stepwise
H-bonding and deprotonation of thiourea
NH as confirmed by 1H NMR titration.
Free receptor 1 shows emission
maximum at 418 nm; whereas, Hbonded
complex of 1·F shows a new
redshifted emission maximum at
473 nm and the deprotonated 1 exhibits
an emission peak at 502 nm. Presence
of these three different emitting species
was probed by 3D emission spectroscopic
studies. Equilibrium between
the free receptor 1, 1·F H-bonded
complex and deprotonated 1 was confirmed
by time-resolved fluorescence
studies. Time-resolved area normalised
emission spectra (TRANES) of 1 in
the presence of F shows two isoemissive
points at 456 and 479 nm between
time delays of 0–0.5 ns and 1–20 ns, respectively,
due to the existence of three
emitting species in equilibrium. Observation
of such an equilibrium based on
fluorescence spectroscopic studies further
proves the earlier reported absorption
and 1H NMR spectroscopic studies
of H-bonding and deprotonation processes
and also illustrates the dynamics
of anion-receptor interactions
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