Tris(4′-Nitrobiphenyl)amineAn
Octupolar
Chromophore with High Two-Photon Absorption Cross-Section and Its
Application for Uncaging of Calcium Ions in the Near-Infrared Region
posted on 2022-11-10, 19:03authored byLinh Tran
Bao Nguyen, Cheng-Lin Wu, Tzu-Chau Lin, Manabu Abe
Compounds with high two-photon absorption
(2PA) performance in
the near-infrared region have attracted great attention because of
their application in the material and biological science. In this
study, we have developed a simple and novel octupolar chromophore,
tris(4′-nitrobiphenyl)amine 1, with three nitro
peripheral groups attached to a triphenylamine core via biphenyl linkers.
A mono-branched analogue 2 has also been prepared to
investigate the effects of octupolar and dipolar systems on photophysical
and 2PA behaviors. Compound 1, despite having a much
simpler structure than the previous three-branched scaffolds, exhibits
comparable σ2 values, reaching 1330 GM at 730 nm
and 900 GM at 820 nm in toluene. Combined with an outstanding σ2/MW ratio (2.2 GM g–1 mol) and a high fluorescence
quantum yield (0.51), 1 displays potential as a promising
two-photon (2P) probe for bioimaging. Subsequently, the ethylene glycol
tetraacetic acid-substituted derivatives featuring octupolar (3 and 5) or dipolar (4 and 6) character have been synthesized and their one-photon (1P)
and 2P photochemical reactions have been examined. Finally, 1P- and
2P-triggered uncaging of Ca2+ from these calcium chelators
has been confirmed.