Short: III/7d1b

Title: Crystal Structure Data of Inorganic Compounds: Key Element: Si

Author: Pies, W.; Weiss, A.; Pieper, G.

Editor: Hellwege, K.-H.; Hellwege, A.M.

Source: Landolt-Börnstein, New Series

Volume: III/7d1β

Page: 1-506

Year: 1985

ISBN: 3-540-13930-3

ISBN: 978-3-540-13930-0

Internet Resource: DOI:10.1007/b19978

RefComment: XXV, Hardcover

Abstract: Volume III/7 contains structure data on those compounds which contain at least one of the elements F, Cl, Br, I, O, N, and P and cannot be called "organic". The structure data of the remaining inorganic compounds and the elements are dealt with in volumes III/6 and III/14, while the organic compounds are treated in volumes III/5 and III/10. The systematic arrange-ment is based on the anions ordered according to "key elements", since this system allows the arrangement of the crystal structure data in such a way that both chemical and crystallographical relationships can be recognized. Structure data are compiled as completely as possible for all inorganic substances, where crystal structures have been examined by means of X-ray, neutron, and electron diffraction,and for which at least the lattice constants have been determined.

Short: IV/14D

Title: Microporous and other Framework Materials with Zeolite-type Structures: Zeolite-Type Crystal Structures and their Chemistry. Framework Type Codes LTA to RHO

Author: Baur, W.H.; Fischer, R.X.

Editor: Baur, W.H.; Fischer, R.X.

Source: Landolt-Börnstein, New Series

Volume: IV/14D

Page: 1-454

Year: 2006

Keyword: Chemical composition; Compounds; Crystal data; Crystal structures; Flexibility; Zeolite

ISBN: 978-3-540-44381-0

Internet Resource: DOI:10.1007/978-3-540-45870-8

RefComment: VIII, 572 illus., Hardcover

RefComment: Written for: Scientists and researchers in the fields of Physics, Chemistry, Material Science and Geology

Abstract: Zeolites and zeolite-like materials became important because of their ion exchange capacities and their outstanding catalytic properties. Millions of tons of zeolites have been produced in the past years for the oil refining industry alone and, in even greater quantities, as ion-exchanging softening agents for detergents. Numerous other applications, e.g., in environmental protection, farming, gas separation, medicine, and pharmacy, are known, making zeolites almost a necessity for daily life. Consequently, there are many research activities dealing with zeolite properties and characterization. However, a strictly systematic description of zeolite-type crystal structures was not available but is now presented in this series of volumes. It is designed as a reference work for zeolite chemists and materials scientists, but it also serves as a tool to interpret structural similarities and to derive new structures from known topologies.