Stefan Altwasser scite author profile

A series of dealuminated zeolites Y with framework n Si /n Al ratios of 2.8-6.0 was prepared by steaming and characterized by atomic emission spectroscopy and 1 H, 27 Al, and 29 Si NMR spectroscopy. The steaming of zeolite H-Y was performed under water vapor pressures of 3.4-81.5 kPa and at a temperature of 748 K. To exclude an additional modification of the dealuminated zeolites Y, the samples were investigated in the nonhydrated state, i.e., without hydration after the dealumination. By 29 Si magic-angle spinning (MAS) NMR spectroscopy, a strong high-field shift of the signals of Si(3Al) and Si(2Al) sites in the spectra of nonhydrated zeolites Y in comparison with those of the hydrated samples was observed. This finding is explained by a change of the Si-O-T bond angles of Si(nAl) sites in the local structure of nonhydrated framework AlO 4 tetrahedra. With increasing water vapor pressure during the dealumination, a systematic decrease of the total amounts of framework aluminum atoms in nonhydrated zeolites Y was found by 27 Al spin-echo NMR and 29 Si MAS NMR spectroscopies. The amounts of disturbed framework aluminum atoms, probably 3-foldcoordinated species in nonhydrated zeolites Y, were determined by the increase of the concentrations of bridging OH groups after an ammonia adsorption/desorption treatment and by application of 1 H MAS NMR spectroscopy. By a quantitative comparison of the amounts of tetrahedrally coordinated framework aluminum atoms, responsible for the occurrence of negative framework charges, and the amounts of charge-compensating residual sodium cations and bridging hydroxyl protons, the mean cationic charge of extraframework aluminum atoms was estimated. This mean cationic charge per extraframework aluminum atom was found to vary from ca. +2 for weakly dealuminated zeolites Y to ca. +0.5 for strongly dealuminated samples. † Part of the special issue "Gerhard Ertl Festschrift".

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Incorporation of RuO2 nanoparticles into MFI-type zeolites

Altwasser

Gläser

et al. 2006

Microporous and Mesoporous Materials

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Catalytic cracking of n-octane on small-pore zeolites

Altwasser

Welker

Traa

et al. 2005

Microporous and Mesoporous Materials

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Elucidating the dealumination mechanism of zeolite H-Y by solid-state NMR spectroscopy

Altwasser¹,

Steuernagel²,

Weitkamp³

et al. 2004

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Ruthenium-containing small-pore zeolites for shape-selective catalysis

Altwasser

Gläser

Weitkamp

2007

Microporous and Mesoporous Materials

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