Kβ-Detected XANES of Framework-Substituted FeZSM-5 Zeolites

The valence and local symmetry of iron in framework-substituted FeZSM-5 with a high Fe dilution (Si/Fe = 360) was studied by means of Kβ-detected X-ray absorption spectroscopy. This technique combines high-resolution (ΔE ∼1 eV) fluorescence detection of the 3p to 1s (Kβ) transition with the X-ray ab...

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Published in:The journal of physical chemistry. B 2004-07, Vol.108 (28), p.10002-10011
Main Authors: Heijboer, Willem M, Glatzel, Pieter, Sawant, Kaveri R, Lobo, Raul F, Bergmann, Uwe, Barrea, Raul A, Koningsberger, Diek C, Weckhuysen, Bert M, de Groot, Frank M. F
Format: Article
Language:English
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Summary:The valence and local symmetry of iron in framework-substituted FeZSM-5 with a high Fe dilution (Si/Fe = 360) was studied by means of Kβ-detected X-ray absorption spectroscopy. This technique combines high-resolution (ΔE ∼1 eV) fluorescence detection of the 3p to 1s (Kβ) transition with the X-ray absorption near-edge structure (XANES) at the Fe K-edge. An absorption-like spectrum is recorded by detecting the Kβ fluorescence intensity as a function of the incident energy that is scanned through the K absorption edge. Kβ-detected XANES spectra allow for a more precise separation of the weak K pre-edge structure from the main edge as compared to conventional absorption spectroscopy. Subsequent analysis and interpretation of the pre-edge spectral features therefore is more accurate. The pre-edge is sensitive to changes in the local coordination and oxidation state of Fe. Using this technique we were able to quantitatively determine the degree of iron extraction out of a zeolite framework upon steaming. With the use of appropriate reference compounds, the pre-edge analysis was used to monitor the activation of low-loaded, framework-substituted FeZSM-5 (0.3 wt % Fe). Template removal and calcination distort the zeolite framework and induce a deviation from Td symmetry for incorporated iron. The (deliberate) presence of water at high temperature (T > 500 °C) facilitates the hydrolysis of the Si−O−Fe bonds and increases the formation of extraframework iron species. The amount of FeIII occupying tetrahedral sites in the MFI-type zeolite decreases to 32% and 19%, respectively, for mild- and hard-steamed samples.
ISSN:1520-6106
1520-5207
DOI:10.1021/jp048368w