Photochemical Generation of Electrons and Holes in Germanium-Containing ITQ-17 Zeolite

Laser flash photolysis of germanium-containing ITQ-17 zeolite (Ge/ITQ-17, a single polymorph of β zeolite) at 266 nm generates a transient spectrum decaying in the sub-millisecond time scale that is compatible with the formation of two transient species. The shorter lived transient (τ ≈ 45 μs under...

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Bibliographic Details
Published in:The journal of physical chemistry. B 2005-03, Vol.109 (8), p.3696-3700
Main Authors: Alvaro, Mercedes, Atienzar, Pedro, Corma, Avelino, Ferrer, Belén, Garcia, Hermenegildo, Navarro, Maria T.
Format: Article
Language:English
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Summary:Laser flash photolysis of germanium-containing ITQ-17 zeolite (Ge/ITQ-17, a single polymorph of β zeolite) at 266 nm generates a transient spectrum decaying in the sub-millisecond time scale that is compatible with the formation of two transient species. The shorter lived transient (τ ≈ 45 μs under nitrogen) has been assigned to trapped electrons due to the characteristic spectroscopic absorption (single band at 480 nm) and its quenching by typical electron scavengers such as N2O and CH2Cl2. The second longer lived transient (λmax = 500, 540, and 600 nm; τ ≈ 390 μs) is not quenched by O2 or electron scavengers, but it is quenched by methanol as hole scavenger and has been assigned to positive holes. Also there is a remarkable similarity of the transient spectrum of the Ge/ITQ-17 with the optical spectrum reported previously for electron−hole pairs in ZSM-5 zeolite. Under the same irradiation conditions, photoejection of electrons and photogeneration of positive holes has not been observed for conventional aluminosilicate zeolites, all-silica zeolites, or GeO2-impregnated zeolites. Therefore this photochemical behavior has been ascribed to the presence of framework germanium atoms opening the way for photoresponsive zeolites. The ability of Ge/ITQ-17 to generate photochemically electrons and holes has been confirmed by adsorbing naphthalene and propyl viologen sulfonate as electron donor and acceptor, respectively, and observing the generation of the corresponding radical ions.
ISSN:1520-6106
1520-5207
DOI:10.1021/jp0471047