Laser Chemistry
Volume 19, Issue 1-4 017539 pp. 325-327
Article
Open Access

Time-Resolved Resonance Raman Study of Biphenyl Occluded in the Supercages of Faujasitic Zeolites

G. Buntinx

G. Buntinx

Laboratoire de Spectrochimie Infrarouge et Raman UPR-CNRS 2631 Centre d′ Etudes et de Recherehes Lasers et applications Université de Lille I Bât. C5 Villeneuve d′ Ascq Cedex 59655, France , univ-lille1.fr

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G. Ginestet

G. Ginestet

Laboratoire de Spectrochimie Infrarouge et Raman UPR-CNRS 2631 Centre d′ Etudes et de Recherehes Lasers et applications Université de Lille I Bât. C5 Villeneuve d′ Ascq Cedex 59655, France , univ-lille1.fr

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I. Gener

I. Gener

Laboratoire de Spectrochimie Infrarouge et Raman UPR-CNRS 2631 Centre d′ Etudes et de Recherehes Lasers et applications Université de Lille I Bât. C5 Villeneuve d′ Ascq Cedex 59655, France , univ-lille1.fr

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G. Coustillier

G. Coustillier

Laboratoire de Spectrochimie Infrarouge et Raman UPR-CNRS 2631 Centre d′ Etudes et de Recherehes Lasers et applications Université de Lille I Bât. C5 Villeneuve d′ Ascq Cedex 59655, France , univ-lille1.fr

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C. Brémard

C. Brémard

Laboratoire de Spectrochimie Infrarouge et Raman UPR-CNRS 2631 Centre d′ Etudes et de Recherehes Lasers et applications Université de Lille I Bât. C5 Villeneuve d′ Ascq Cedex 59655, France , univ-lille1.fr

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First published: 01 January 1999
https://doi.org/10.1155/1999/17539
Citations: 3

Abstract

The laser photolysis (248 nm, 20 ns) of biphenyl (BP, S0) occluded in the void space of faujasitic zeolites (NanFAU) , with n=0, 56, 85 has been studied by time-resolved resonance Raman spectroscopy combined with time-resolved diffuse reflectance UV-visible absorption spectroscopy in the ns–μs time scale. The excitation (370 nm, 8 ns) of the RR scattering in the wavelength region of the UV electronic absorption of the transient species provides clear evidence of the radical cation (BP+) as major species for zeolites NanFAU (n=56, 85). The amount of triplet state (BP, T1) depends on the aluminum content and in a less extent on the fluence of the pump laser at the sample.

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