Table of contents

  1. Front Matter
    Pages i-viii
  2. R. X. Fischer, W. H. Baur
    Pages 1-20
  3. STO
    R. X. Fischer, W. H. Baur
    Pages 21-33
  4. STT
    R. X. Fischer, W. H. Baur
    Pages 34-43
  5. STW
    R. X. Fischer, W. H. Baur
    Pages 44-49
  6. SVR
    R. X. Fischer, W. H. Baur
    Pages 50-59
  7. SZR
    R. X. Fischer, W. H. Baur
    Pages 60-68
  8. TER
    R. X. Fischer, W. H. Baur
    Pages 69-75
  9. THO
    R. X. Fischer, W. H. Baur
    Pages 76-110
  10. TOL
    R. X. Fischer, W. H. Baur
    Pages 111-123
  11. TON
    R. X. Fischer, W. H. Baur
    Pages 124-131
  12. TSC
    R. X. Fischer, W. H. Baur
    Pages 132-138
  13. TUN
    R. X. Fischer, W. H. Baur
    Pages 139-155
  14. UEI
    R. X. Fischer, W. H. Baur
    Pages 156-162
  15. UFI
    R. X. Fischer, W. H. Baur
    Pages 163-168
  16. UOS
    R. X. Fischer, W. H. Baur
    Pages 169-177
  17. UOZ
    R. X. Fischer, W. H. Baur
    Pages 178-185
  18. USI
    R. X. Fischer, W. H. Baur
    Pages 186-194
  19. UTL
    R. X. Fischer, W. H. Baur
    Pages 195-202
  20. UWY
    R. X. Fischer, W. H. Baur
    Pages 203-211

About this book

Introduction

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.

Keywords

FTC aristotype structure crystal structure framework density framework material framework structure framework type code interatomic angle interatomic distance isotropic displacement factor microporous material polyhedral unit site symmetry space group structural parameter synthetic material zeolite zeolite framework zeolite-type mineral zeolite-type structure

Editors and affiliations

  • R. X. Fischer
    • 1
  • W. H. Baur
    • 2
  1. 1.Fachbereich Geowissenschaften, KristallographieUniversität BremenBremenGermany
  2. 2.Western SpringsUSA

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-642-32372-0
  • Copyright Information Springer-Verlag Berlin Heidelberg 2013
  • Publisher Name Springer, Berlin, Heidelberg
  • Print ISBN 978-3-642-32371-3
  • Online ISBN 978-3-642-32372-0
  • About this book
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