论文信息 - High Resolution 29Si Nuclear Magnetic Resonance Study on Gallosilicates with Zeolitic Structures

High Resolution 29Si Nuclear Magnetic Resonance Study on Gallosilicates with Zeolitic Structures

High resolution 29Si nuclear magnetic resonance spectra have been measured using magic angle sample spinning technique for several gallosilicates and aluminosilicates with zeolitic structures. The number of gallium atoms coordinating to the SiO4 tetrahedron was determined by the technique in the same manner as established for aluminium in aluminosilicates. The resonance lines were observed to shift to lower field by the substitution of silicon atoms with gallium as well as aluminium. The magnitudes of lower-field shifts were larger for the substitution by gallium than aluminium. The chemical shift ranges of 29Si nuclei are discussed for gallosilicates with the values for aluminosilicates compared.

K. Hayamizu | Kunio Suzuki | S. Hayashi | O. Yamamoto | Shigemitsu Shin

[1] J. Nagy,et al. High-resolution magic-angle-spinning solid-state 29si NMR characterization of the structure and aluminium orderings of zeolites , 1983 .

[2] G. Maciel,et al. Setting the magic angle using a quadrupolar nuclide , 1982 .

[3] J. Klinowski,et al. Resolving crystallographically distinct tetrahedral sites in silicalite and ZSM-5 by solid-state NMR , 1982, Nature.

[4] J. Klinowski,et al. Applications of magic-angle-spinning silicon-29 nuclear magnetic resonance. Evidence for two different kinds of silicon-aluminum ordering in zeolitic structures , 1981 .

[5] É. Lippmaa,et al. Investigation of the structure of zeolites by solid-state high-resolution silicon-29 NMR spectroscopy , 1981 .

[6] É. Lippmaa,et al. Structural studies of silicates by solid-state high-resolution silicon-29 NMR , 1980 .

[7] E. R. Andrew,et al. The narrowing of NMR spectra of solids by high-speed specimen rotation and the resolution of chemical shift and spin multiplet structures for solids . Pulsed NMR in Solids , 1971 .

[8] J. Selbin,et al. Preparation of gallium-containing molecular sieves , 1961 .

[9] Walter Loewenstein,et al. The distribution of aluminum in the tetrahedra of silicates and aluminates , 1954 .