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New developments in metal oxides research /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Publishers,
[2013]
|
| Colección: | Chemistry research and applications
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- NEW DEVELOPMENTS IN METAL OXIDES RESEARCH ; Library of Congress Cataloging-in-Publication Data; CONTENTS ; PREFACE ; Chapter 1 PREPARATION OF TITANIA NANOPARTICLES AND RELATIONSHIPS BETWEEN PROCEDURES AND PROPERTIES ; ABSTRACT; 1. INTRODUCTION ; 2. HYDROLYSIS AND SOLVOLYSIS METHODS ; 2.1. Inorganic Precursors ; 2.1.1. Titanium Tetrachloride ; 2.1.2. Titanium Trichloride; 2.1.3. Titanium Oxychloride ; 2.1.4. Titanium Sulfate ; 2.1.5. Titanic Acid ; 2.2. Organic Precursors ; 2.2.1. Titanium Tetraethoxide ; 2.2.2. Titanium Tetraisopropoxide ; 2.2.3. Titanium Tetrabutoxide.
- 3. HYDROTHERMAL METHODS3.1. Inorganic Precursors ; 3.1.1. Titanium Sulfate ; 3.1.2. Titanium Trichloride ; 3.1.3. Titanium Tetrachloride ; 3.1.4. Peroxotitanic Acid ; 3.2. Organic Precursors ; 3.2.1. Titanium Tetraisopropoxide ; 3.2.2. Titanium Tetrabutoxide; 4. SOLVOTHERMAL METHODS ; 5. SOL-GEL METHODS ; 5.1. Inorganic Precursors ; 5.1.1. Titanium Tetrachloride ; 5.2. Organic Precursors ; 5.2.1. Titanium Tetraisopropoxide ; 5.2.2. Titanium Tetrabutoxide ; CONCLUSION ; ACKNOWLEDGMENTS ; APPENDIX I. LIST OF ABBREVIATIONS ; REFERENCES.
- Chapter 2 METAL OXIDES AS WATER RETENTION MATERIALS FOR LOW HUMIDITY PROTON EXCHANGE MEMBRANE APPLICATIONS ABSTRACT ; 1. INTRODUCTION ; 1.1. Background ; 1.2. Scope ; 2. STRUCTURAL PROPERTIES AND WATER ADSORPTION CHARACTERISTICS OF METAL OXIDES AND METAL OXIDE BASED MATERIALS ; 3. METAL OXIDE AND METAL OXIDE BASED COMPOSITE PROTON EXCHANGE MEMBRANES ; 3.1. Nafion®: Properties and Morphological Characteristics ; 3.2. Nafion®
- Metal Oxide Composite Membranes ; 3.2.1. Nafion®
- Silica Composite Membrane ; 3.2.2. Nafion®
- Titania Composite Membrane.
- 3.2.3. Nafion® -Zirconia and Alumina Composite Membrane 3.2.4. Non-Perfluorosulfonated Ionomer-metal Oxide Composite Membranes ; 4. SYNTHESIS AND CHARACTERIZATION ; 4.1. Synthesis ; 4.2. Characterization of the Nafion®-metal Oxide Composite Membranes ; 4.2.1. X-ray Diffraction Analysis ; 4.2.2. Electronic Microscopy ; 4.2.3. Fourier Transform Infrared (FTIR) Analysis ; 4.2.4. Thermo Gravimetric Analysis (TGA) and Dynamic Mechanical Analysis (DMA); 5. WATER UPTAKE AND PROTON CONDUCTIVITY OF PEM; 5.1. Ion Exchange Capacity and Equivalent Weight; 5.2. Water Uptake; 5.3. Proton Conductivity.
- 5.4. The Relationship between Water Content and Proton ConductivityCONCLUSION ; ACKNOWLEDGMENT ; REFERENCES ; Chapter 3 COMPUTATIONAL MATERIALS DESIGN OF D0 FERROMAGNETISM IN METAL OXIDES ; ABSTRACT ; 1. INTRODUCTION ; 2. PIONEERING MATERIALS DESIGN OF CHALCOGENIDE-BASED FERROMAGNETS ; 2.1. Discovery of Spin-Polarized Impurity 4d and 5d Bands ; 2.2. Discovery of Spin-Polarized Impurity p Bands ; 3. ADVANCED MATERIALS DESIGN OF METAL-OXIDE-BASED D0 FERROMAGNETS ; 3.1. Electronic Structures Considering Self-Interaction ; 3.2. Curie Temperature Considering Magnetic Percolation.