Advanced Zeolite Science and Applications ( Volume 85 )

Publication series ：Volume 85

Author： Stöcker Michael;Karge H. G.;Jansen J. C.

Publisher： Elsevier Science‎

Publication year： 1994

E-ISBN: 9780080886954

P-ISBN(Paperback): 9780444820013

P-ISBN(Hardback): 9780444820013

Subject： P578.94 silicate (silicate salt)

Language： ENG

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Description

Zeolites and related microporous materials are used in oil processing and in the fine and petrochemical industries on a large scale. New applications of zeolites contribute to environmentally friendly processes and refined zeolites such as catalytic zeolite membranes and zeolites containing exhaust-pipe reactors are being introduced. Recent diversity in zeolite research has been fueled by the increase in number of microporous materials and the combination with interfacing science areas. The possibility to accommodate ions, large molecules or nanostructures in the crystalline matrix has been explored and the performance of electronic, acoustic and photonic modified response of the materials has been tested.

This volume provides up-to-date information on new zeolite and related materials and composites, their applications, testing of new processes and techniques, and promising laboratory results as well. A vast amount of work from a fundamental aspect is incorporated. In particular, the combination of science and application offers useful information for readers interested in molecular sieves.

Chapter

Front Cover

pp.： 1 – 4

Advanced Zeolite Science and Applications

pp.： 4 – 5

pp.： 5 – 12

Preface

pp.： 6 – 8

List of contributors

pp.： 8 – 18

Contents

pp.： 12 – 6

Chapter 1. Sol-gel chemistry and molecular sieve synthesis

pp.： 18 – 60

Chapter 2. Effects of seeding on zeolite crystallization, and the growth behavior of seeds

pp.： 60 – 92

Chapter 3. The opportunities of the fluoride route in the synthesis of microporous materials

pp.： 92 – 132

Chapter 4. Alkali metal and semiconductor clusters in zeolites

pp.： 132 – 162

Chapter 5. Nonlinear optical effects of dye-loaded molecular sieves

pp.： 162 – 194

Chapter 6. Metal ions associated to the molecular sieve framework: possible catalytic oxidation sites

pp.： 194 – 232

Chapter 7. The preparation of coatings of molecular sieve crystals for catalysis and separation

pp.： 232 – 268

Chapter 8. The catalytic site from a chemical point of view

pp.： 268 – 290

Chapter 9. Theory of Brnsted acidity in zeolites

pp.： 290 – 312

Chapter 10. Analysis of the guest-molecule host-framework interaction in zeolites with NMR-spectroscopy and X-ray diffraction

pp.： 312 – 346

Chapter 11. The preparation and potential applications of ultra-large pore molecular sieves: A review

pp.： 346 – 374

Chapter 12. Advances in the in situ 13C MAS NMR characterization of zeolite catalyzed hydrocarbon reactions

pp.： 374 – 408

Chapter 13. Practical aspects of powder diffraction data analysis

pp.： 408 – 446

Chapter 14. Review on recent NMR results

pp.： 446 – 526

Chapter 15. Supported zeolite systems and applications

pp.： 526 – 560

Chapter 16. The intersection of electrochemistry with zeolite science

pp.： 560 – 604

Chapter 17. Past, present and future role of microporous catalysts in the petroleum industry

pp.： 604 – 650

Chapter 18. Application of molecular sieves in view of cleaner technology. Gas and liquid phase separations

pp.： 650 – 670

Chapter 19. Crystalline microporous phosphates: a family of versatile catalysts and adsorbents

pp.： 670 – 704

Keyword index

pp.： 704 – 710

Studies in Surface Science and Catalysis

pp.： 710 – 716

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