Journal of Photoscience

Korean Society of Photoscience (한국광과학회)
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Fluorescence Behavior of Benzo[f]Quinoline Doped In Lpd Silica Thin Films

  • Mabuchi, Toshiaki (Faculty of Engineering and Graduate School of Science and Technology, Shinshu University) ;
  • Suzuki, Satoshi (Faculty of Engineering and Graduate School of Science and Technology, Shinshu University) ;
  • Nakajima, Tsuyoshi (Faculty of Engineering and Graduate School of Science and Technology, Shinshu University) ;
  • Ino, Juichi (Central Research Laboratory, Nippon Sheet Glass Co.,Ltd.,) ;
  • Takemura, Kazuo (Central Research Laboratory, Nippon Sheet Glass Co.,Ltd.,) ;
  • Shimizu, Etsuro (Microcomponent Engineering Department Olympus Optical co., Ltd)
  • Published : 1998.10.01
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Abstract

By using the liquid -phase-deposition (LPD) process, which has a potetnial of preparing organic inorganic composite materials, samples doped with benzo[f]quinoline (BfQ)into silica thia films wre prepared. We observed the fluorescene and fluorescene excitation spectra of the samples, as well as the fluorescence lifetimes and time-resoluved fluorescence spectra. The comparison of thefluorescence spectra in pH-controlled buffer solutions yields the results that the dominant species of BfQ in the LPD silica films is a protonated one. The fluorescence band assigned to a hydrogen-bonded species was observed on the samples prepared from the dipping solutions of 3 and 2 M hexafluorosilicic acid. The band assignment was confirmed by the fluorescence lifetime measurement. The FT-IR M hexaflurosilicic acid. The band assignment was confirmed by the flurescence lifetime meausurement. The FT-IR data proved the existence of included water in silica films prepared from the LPD process. The appearance of the band corresponding to the hydrogen-bonded species within LPD silica phases was explained by the proesence of included water. Depending on the preparation conditions of LPD silica films, the band assigned to protonated species shows bad shifts in a wavenumber region between the peak of hydrogen-bonded and typical protonated species. This implies that there is some distribution of steric conformation of protonated species of BfQ interacting with adsorbing sites of LPD silica. The time -resolved fluorescence spectra suggest that some relaxation process is involved in the conformation of BfQ doped into the solid phase of LPD silica.

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References

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