1. Auflage - Oktober 2010
97,90 Euro
2010. 350 Seiten, Hardcover
- Praktikerbuch -
ISBN-10: 0-470-99749-4
ISBN-13: 978-0-470-99749-9 - John Wiley & Sons

Preis inkl. Mehrwertsteuer zzgl. Versandkosten.





Probekapitel

Kurzbeschreibung
Porous Materials focuses on the exciting field of porous materials, in which there have been a number of significant breakthroughs in the design and processing of novel porous materials. The authors demonstrate rapid growth of emerging applications, such as energy conversion and storage, catalysis, tissue engineering, drug delivery, medical diagnosis, and photonics. Ideal for graduate students and researchers in inorganic chemistry and solid-state physics, the chapters in this volume cover inorganic zeotypes, ordered mesoporous materials, silicates, metal oxides, and advances in silicate zeolite chemistry, among other topics.

Aus dem Inhalt
Inorganic Materials Series Preface.

Preface.

List of Contributors.

1 Metal-Organic Framework Materials (Cameron J. Kepert).

1.1 Introduction.

1.2 Porosity.

1.2.1 Framework Structures and Properties.

1.2.2 Storage and Release.

1.2.3 Selective Guest Adsorption and Separation.

1.2.4 Heterogeneous Catalysis.

1.3 Incorporation of Other Properties.

1.3.1 Magnetic Ordering.

1.3.2 Electronic and Optical Properties.

1.3.3 Structural and Mechanical Properties.

1.4 Concluding Remarks.

Acknowledgements.

References.

2 Mesoporous Silicates (Karen J. Edler).

2.1 Introduction.

2.2 Nomenclature.

2.3 Methods of Preparation.

2.4 Surfactant Aggregation.

2.5 Silica Source.

2.6 Template Removal.

2.7 Synthetic Routes and Formation Mechanisms.

2.7.1 True Liquid Crystal Templating.

2.7.2 Cooperative Self-Assembly.

2.7.3 Evaporation-Induced Self-Assembly.

2.8 Properties and Characterisation.

2.9 Macroscopic Structures.

2.10 Applications.

References.

3 Ordered Porous Crystalline Transition Metal Oxides (Masahiro Sadakane and Wataru Ueda).

3.1 Introduction.

3.2 Scope and Limitations of this Review.

3.3 Microporous Transition Metal Oxide Materials.

3.4 Mesoporous Transition Metal Oxide Materials.

3.4.1 Soft Template Method.

3.4.2 Hard Template Method.

3.4.3 Mesoporous Oxides of Group 4 Elements (Ti, Zr).

3.4.4 Mesoporous Oxidesof Group 5 Elements (Nb, Ta).

3.4.5 Mesoporous Oxides of Group 6 Elements (Cr, Mo, W).

3.4.6 Mesoporous Oxides of Group 7 Elements (Mn).

3.4.7 Mesoporous Oxides of Elements of Groups 8-11 (Fe, Co, Ni, Cu).

3.4.8 Mesoporous Oxides of Lanthanide Elements (Ce).

3.5 Macroporous Materials.

3.5.1 Macroporous Monometal Oxides.

3.5.2 Macroporous Oxides of Group 4 Elements (Ti, Zr).

3.5.3 Macroporous Oxides of Group 5 Elements(V, Nb).

3.5.4 Macroporous Oxides of Group 6 Elements(Cr,W).

3.5.5 Macroporous Oxides of Elements of Groups 7-11 (Mn, Fe, Co, Ni, Cu).

3.5.6 Macroporous Oxides of Lanthanide Elements (La, Ce, Nd, Sm, Eu).

3.5.7 Macroporous Multi-Component Metal Oxides.

3.5.8 Two-Step Templating Method.

3.5.9 Applications.

3.6 Conclusion.

References.

4 Templated Porous Carbon Materials: Recent Developments (Yongde Xia, Zhuxian Yang and Robert Mokaya).

4.1 Introduction.

4.2 Microporous Carbon Materials.

4.2.1 Zeolites as Hard Template.

4.2.2 Clays as Hard Template.

4.2.3 Other Microporous Materials as Hard Template.

4.3 Mesoporous Carbon Materials.

4.3.1 Conventional Hard Template Synthesis Strategy.

4.3.2 Cost-Effective Strategies for the Synthesis of Mesoporous Carbons.

4.3.3 Soft-Template Synthesis Strategy for Ordered Mesoporous Carbons.

4.3.4 Ordered Mesoporous Carbons with Graphitic Pore Wall.

4.3.5 Mesopore Size Control.

4.3.6 Morphology Control.

4.4 Macroporous Carbon Materials.

4.4.1 Silica Colloidal Crystals as Hard Template.

4.4.2 Polymer Microspheres as Template.

4.4.3 Dual Template Method.

References.

5 Synthetic Silicate Zeolites: Diverse Materials Accessible Through Geoinspiration (Miguel A. Camblor and Suk Bong Hong).

5.1 Introduction.

5.2 Zeolites: Some Definitions.

5.3 Zeolite Structures.

5.4 Chemical Composition of Silicate Zeolites.

5.4.1 Naming Zeolites.

5.4.2 Loewenstein's Rule.

5.5 Zeolite Properties.

5.6 Zeolite Applications.

5.7 Zeolite Synthesis.

5.7.1 The Synthetic Zeolites as Geoinspired Materials.

5.7.2 Thermochemistry of Zeolite Synthesis.

5.7.3 Organic Structure-Directing Agents.

5.7.4 Structure-Direction by Flexible, Hydrophilic OSDAs.

5.7.5 Double OSDA Strategies.

5.7.6 Structure-Direction by T-Atoms.

5.7.7 Zeolite Synthesis from Nonaqueous Solvents.

5.7.8 The Fluoride Route to Zeolites.

5.7.9 Structure-Direction Issues in the Fluoride Route to Pure-Silica Zeolites.

5.7.10 Topotactic Condensation of Layered Silicates.

5.8 Concluding Remarks.

Acknowledgements.

References.

Index.