1 research outputs found
Large Fluorescence Response by Alcohol from a Bis(benzoxazole)–Zinc(II) Complex: The Role of Excited State Intramolecular Proton Transfer
The formation of a bisÂ(HBO) anion
is known to turn on the fluorescence
to give red emission, via controlling the excited-state intramolecular
proton transfer (ESIPT). The poor stability of the formed anion, however,
hampered its application. The anion stability is found to be greatly
improved by attaching the anion to Zn<sup>2+</sup> cation (i.e., forming
zinc complex), whose emission is at λ<sub>em</sub> ≈
550 and 760 nm. Interestingly, addition of methanol to the zinc complex
induces a remarkable red fluorescence (λ<sub>em</sub> ≈
630 nm, ϕ<sub>fl</sub> ≈ 0.8). With the aid of spectroscopic
studies (<sup>1</sup>H NMR, UV–vis, fluorescence, and mass
spectra), the structures of the zinc complexes are characterized.
The emission species is identified as a dimer-like structure. The
study thus reveals an effective fluorescence switching mechanism that
could further advance the application of ESIPT-based sensors