Catalysis : principles, types and applications /
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Nova Science Publishers, Inc.,
[2011]
|
Colección: | Chemistry research and applications series.
Chemical engineering methods and technology. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- CATALYSIS: PRINCIPLES, TYPES AND APPLICATIONS ; CATALYSIS: PRINCIPLES, TYPES AND APPLICATIONS ; CONTENTS ; PREFACE ; SOLID-ACID CATALYSIS AND THEIR APPLICATIONS IN GREEN SYNTHESIS OF FINE CHEMICALS ; ABSTRACT ; INTRODUCTION ; THE ACIDIC PROPERTIES AND CHARACTERIZATIONS OF SOLID ACID CATALYSTS ; Acidic Properties ; Types of Acidic Sites ; Concentration of Acidic Sites ; Strength of Acidic Sites ; Characterization of Acidic Properties [1-3] ; NH3-TPD; Pyridine-IR; POPULAR SOLID ACID CATALYSTS ; Molecular Sieves [5-10] ; Acid Clays [11-26] ; Supported Heteropoly Acids [27-39]
- Solid Superacids [40-52] Ion-exchange Resin Solid Acids [53-68] ; Sulfonated Solid Acids [69-77] ; GREEN SYNTHESIS OF FINE CHEMICALS THROUGH HETEROGENEOUS CATALYSIS OVER SOLID ACIDS ; Green Synthesis over Molecular Sieves ; Alkylation ; Acylation ; Nitration ; Esterification ; Halogenation; Cyclization ; Others ; Green Synthesis over Acid Clays ; Esterification ; Alkylation ; Acylation ; Etherization ; Condensation ; Others ; Green Synthesis over Supported Heteropoly Acids ; Esterification ; Alkylation ; Condensation ; Others ; Green Synthesis over Solid Superacids ; Esterification.
- Condensation Alkylation ; Acylation ; Others; Green Synthesis over Ion-Exchange Resin Solid Acids ; Esterification ; Condensation ; Alkylation ; Hydrolysis ; Others ; Green Synthesis over Sulfonated Solid Acids ; Esterification ; Condensation ; Alkylation ; CONCLUDED REMARKS AND OUTLOOK ; ACKNOWLEDGMENTS ; REFERENCES ; ACTIVATION OF HETEROGENEOUS NANOCATALYSTS BY SOLAR LIGHT: PRINCIPLES, SYNTHESIS AND APPLICATIONS ; ABSTRACT ; INTRODUCTION ; 1. FUNDAMENTALS OF HETEROGENEOUS PHOTOCATALYSIS ; 1.1. Mechanism of Titania-assisted Photocatalysis.
- 1.2. Influence of Operational Parameters in Photocatalyst Efficiency 1.2.1. Light Intensity; 1.2.2. Nature and Concentration of the Substrate; 1.2.3. Nature of the Photocatalyst ; 1.2.4. Concentration of Photocatalyst ; 1.2.5. pH ; 1.2.6. Reaction Temperature ; 1.2.7. Type of Reactor ; 1.2.8. Presence of Oxygen; 1.2.9. Content of Ions ; 2. PROPERTIES AND CHARACTERISTICS OF PHOTOCATALYSTS: TITANIAAND OTHER PHOTOCATALYSTS ; 2.1. Types of TiO2 Catalysts; 2.2. Modified Titania Systems for Improved Photocatalytic Activity under Visible Light ; 2.2.1. Doping with Metals.
- 2.2.2. Doping with Non-metallic Elements2.3. Other than Titania Photocatalysts ; 2.3.1. Binary Metal Oxides ; 2.3.2. Metal Sulfides ; 2.3.3. Metal-organic Frameworks (MOF) as Semiconductors for Photocatalysis; 3. TIO2 NANO-PHOTOCATALYSTS PREPARATION ; 3.1. The Sol-Gel Method ; 3.2. Selected Non-Conventional Synthesis Methodologies ; 3.2.1. Ultrasonic Preparation of Nanostructured Photocatalysts ; 3.2.2. Microwave Method ; 3.2.3. Chemical Vapour Deposition (CVD); 3.2.4. Physical Vapour Deposition (PVD) ; 3.2.5. Spray Pyrolysis Deposition (SPD) ; 4. HETEROGENEOUS PHOTOCATALYIS APPLICATIONS.