1. Auflage - September 2007
219,- Euro
2007. 696 Seiten, Hardcover
ISBN-10: 0-470-82233-3
ISBN-13: 978-0-470-82233-3 - John Wiley & Sons

Preis inkl. Mehrwertsteuer zzgl. Versandkosten.





Probekapitel

Kurzbeschreibung
Chemistry of Zeolites and Related Porous Materials: Synthesis and Structure focuses on the synthetic and structural chemistry of zeolites and porous materials including major types of porous materials such as microporous, mesoporous, and macroporous materials, and metal-organic frameworks (MOFs). It systematically introduces and discusses in-depth the synthetic and structural chemistry of these materials, and includes two frontier subjects, molecular engineering, and advanced host-guest materials

Aus dem Inhalt
Preface.

1. Introduction.

1.1 The Evolution and Development of Porous Materials.

1.2 Main Applications and Prospects.

1.3 The Development of Chemistry for Molecular Sieves and Porous Materials.

2. Structural Chemistry of Microporous Materials.

2.1 Introduction.

2.2 Structural Building Units of Zeolites.

2.3 Composition of Zeolites.

2.4 Framework Structures of Zeolites.

2.5 Zeolitic Open-framework Structures.

2.6 Summary.

3. Synthetic Chemistry of Microporous Compounds (I) - Fundamentals and Synthetic Routes.

3.1 Introduction to Hydro(solvo)thermal Synthesis.

3.2 Synthetic Approaches and Basic Synthetic Laws for Microporous Compounds.

3.3 Typical Synthetic Procedures for some Important Molecular Sieves.

4. Synthetic Chemistry of Microporous Compounds (II) - Special Compositions, Structures, and Morphologies.

4.1 Synthetic Chemistry of Microporous Compounds with Special Compositions and Structures.

4.2 Synthetic Chemistry of Microporous Compounds with Special Morphologies.

5. Crystallization of Microporous Compounds.

5.1 Starting Materials of Zeolite Crystallization.

5.2 Crystallization Process and Formation Mechanism of Zeolites.

5.3 Structure-directing Effect and Templating in the Crystallization Process of Microporous Compounds.

5.4 Crystallization Kinetics of Zeolites.

6. Preparation, Secondary Synthesis, and Modification of Zeolites.

6.1 Preparation of Zeolites - Detemplating of Microporous Compounds.

6.2 Outline of Secondary Synthesis.

6.3 Cation-exchange and Modification of Zeolites.

6.4 Modification of Zeolites through Dealumination.

6.5 Isomorphous Substitution of Heteroatoms in Zeolite Frameworks.

6.6 Channel and Surface Modification of Zeolites.

7. Towards Rational Design and Synthesis of Inorganic Microporous Materials.

7.1 Introduction.

7.2 Structure-prediction Methods for Inorganic Microporous Crystals.

7.3 Towards Rational Synthesis of Inorganic Microporous Materials.

7.4 Prospects.

8. Synthesis, Structure, and Characterization of Mesoporous Materials.

8.1 Introduction.

8.2 Synthesis Characteristics and Formation Mechanism of Ordered Mesoporous Materials.

8.3 Mesoporous Silica: Structure and Synthesis.

8.4 Pore Control.

8.5 Synthesis Strategies.

8.6 Composition Extension of Mesoporous Materials.

8.7 Morphology and Macroscopic Form of Mesoporous Material.

8.8 Possible Applications, Challenges, and Outlook.

9. Porous Host-Guest Advanced Materials.

9.1 Metal Clusters in Zeolites.

9.2 Dyes in Zeolites.

9.3 Polymers and Carbon Materials in Zeolites.

9.4 Semiconductor Nanoparticles in Zeolites.

9.5 Metal Complexes in Molecular Sieves.

9.6 Metal-Organic Porous Coordination Polymers.

Further Reading.