| Preface |
| List of Contributors |
| Concepts in Selective Oxidation of Small Alkane Molecules / Robert Schlogl1: |
| Introduction / 1.1: |
| The Research Field / 1.2: |
| Substrate Activation / 1.3: |
| Active Oxygen Species / 1.4: |
| Catalyst Material Science / 1.5: |
| Conclusion / 1.6: |
| References |
| Active Ensemble Structures for Selective Oxidation Catalyses at Surfaces / Mizuki Tada ; Yasuhiro Iwasawa2: |
| Asymmetric Heterogeneous Catalysis Using Supported Metal Complexes / 2.1: |
| Asymmetric Catalysis for Oxidative Coupling of 2-Naphthol to BINOL / 2.2.2: |
| Active Re Clusters Entrapped in ZSM-5 Pores / 2.3: |
| Unique Catalytic Performance of Supported Gold Nanoparticles in Oxidation / Yunbo Yu ; Jiahui Huang ; Tamao Ishida ; Masatake Haruta2.4.4: |
| Low-Temperature CO Oxidation / 3.1: |
| Low-Temperature CO Oxidation in Air / 3.2.1: |
| Junction Perimeter Between Au Particles and the Support / 3.2.1.1: |
| Selection of Suitable Supports / 3.2.1.2: |
| Sensitivity to the Size of the Gold Particles / 3.2.1.3: |
| Mechanism for CO Oxidation Over Supported Gold Nanoparticles / 3.2.2: |
| Mechanisms Involving Junction Perimeter Between Gold and the Metal-Oxide Supports / 3.2.3.1: |
| Mechanisms Involving Specific Size or Thickness of Gold Clusters or Thin Layers / 3.2.3.2: |
| Mechanisms Involving Cationic Gold / 3.2.3.3: |
| Complete Oxidation of Volatile Organic Compounds / 3.3: |
| Gas-Phase Selective Oxidation of Organic Compounds / 3.4: |
| Gas-Phase Selective Oxidation of Aliphatic Alkanes / 3.4.1: |
| Gas-Phase Selective Oxidation of Alcohols / 3.4.2: |
| Gas-Phase Propylene Epoxidation / 3.4.3: |
| Liquid-Phase Selective Oxidation of Organic Compounds / 3.4.3.1: |
| Oxidation of Mono-Alcohols / 3.5.1: |
| Oxidation of Diols / 3.5.2: |
| Oxidation of Glycerol / 3.5.3: |
| Aerobic Oxidation of Glucose / 3.5.4: |
| Oxidation of Alkanes and Alkenes / 3.5.5: |
| Conclusions / 3.6: |
| Metal-Substituted Zeolites as Heterogeneous Oxidation Catalysts / Takashi Tatsumi4: |
| Introduction - Two Ways to Introduce Hetero-Metals into Zeolites / 4.1: |
| Titanium-Containing Zeolites / 4.2: |
| TS-1 / 4.2.1: |
| Ti-Beta / 4.2.2: |
| Ti-MWW / 4.2.3: |
| Other Titanium-Containing Zeolites / 4.2.4: |
| Solvent Effects and Reaction Intermediate / 4.2.5: |
| Other Metal-Containing Zeolites / 4.3: |
| Design of Well-Defined Active Sites on Crystalline Materials for Liquid-Phase Oxidations / Kiyotomi Kaneda ; Takato Mitsudome4.4: |
| Oxidation of Alcohols / 5.1: |
| Ru Catalyst / 5.2.1: |
| Pd Catalyst / 5.2.2: |
| Au Catalyst / 5.2.3: |
| Au-Pd Catalyst / 5.2.4: |
| Epoxidation of Olefins / 5.3: |
| Epoxidation with Hydrogen Peroxide / 5.3.1: |
| Titanium-Based Catalysts / 5.3.1.1: |
| Tungsten-Based Catalysts / 5.3.1.2: |
| Base Catalyst / 5.3.1.3: |
| Epoxidation with Molecular Oxygen / 5.3.2: |
| Cis-Dihydroxylation / 5.4: |
| Baeyer-Villiger Oxidation / 5.5: |
| C-H Activation Using Molecular Oxygen / 5.6: |
| Liquid-Phase Oxidations with Hydrogen Peroxide and Molecular Oxygen Catalyzed by Polyoxometalate-Based Compounds / Noritaka Mizuno ; Keigo Kamata ; Sayaka Uchida ; Kazuya Yamaguchi5.7: |
| Isopoly- and Heteropolyoxometalates / 6.1: |
| Peroxometalates / 6.2.2: |
| Lacunary Polyoxometalates / 6.2.3: |
| Transition-Metal-Substituted Polyoxometalates / 6.2.4: |
| Heterogenization of Polyoxometalates / 6.3: |
| Solidification of Polyoxometalates with Appropriate Cations / 6.3.1: |
| Metal and Alkylammonium Cations / 6.3.1.1: |
| Polycations / 6.3.1.2: |
| Cationic Organometallic Complexes / 6.3.1.3: |
| Immobilization of Polyoxometalate-Based Compounds / 6.3.2: |
| Wet Impregnation / 6.3.2.1: |
| Solvent-Anchoring and Covalent Linkage / 6.3.2.2: |
| Anion Exchange / 6.3.2.3: |
| Nitrous Oxide as an Oxygen Donor in Oxidation Chemistry and Catalysis / Gennady I. Panov ; Konstantin A. Dubkov ; Alexander S. Kharitonov6.4: |
| Molecular Structure and Physical Properties of Nitrous Oxide / 7.1: |
| Catalytic Oxidation by Nitrous Oxide in the Gas Phase / 7.3: |
| Oxidation of Lower Alkanes Over Oxide Catalysts / 7.3.1: |
| Oxidation Over Zeolites / 7.3.2: |
| Oxidation by Dioxygen / 7.3.2.1: |
| Nature of Zeolite Activity, a-Sites / 7.3.2.2: |
| Hydroxylation of Alkanes and Benzene Derivatives / 7.3.2.4: |
| Other Types of Oxidation Reactions / 7.3.2.6: |
| Liquid-Phase Oxidation of Alkenes / 7.4: |
| Linear Alkenes / 7.5.1.1: |
| Cyclic Alkenes / 7.5.1.2: |
| Cyclodienes / 7.5.1.3: |
| Bicyclic Alkenes / 7.5.1.4: |
| Heterocyclic Alkenes / 7.5.1.5: |
| Carboxidation of Polymers / 7.5.2: |
| Carboxidation of Polyethylene / 7.5.2.1: |
| Carboxidation of Polybutadiene Rubber / 7.5.2.2: |
| Direct Synthesis of Hydrogen Peroxide: Recent Advances / Gabriele Centi ; Siglinda Perathoner ; Salvatore Abate7.6: |
| Industrial Production / 8.1: |
| Uses of Hydrogen Peroxide / 8.1.2: |
| Status of Development and Perspectives of Industrial Production / 8.2: |
| Fundamental Studies / 8.2.2: |
| Intrinsically Safe Operations and Microreactors / 8.3.1: |
| Nature of the Catalyst and Reaction Network / 8.3.2: |
| Role of the Solvent and of Promoters / 8.3.3: |
| Recent Achievements and Challenges for a Greener Chemical Industry / Fabrizio Cavani ; Nicola Ballarini8.4: |
| Introduction: Old and New Challenges for Oxidation Catalysis in Industry / 9.1: |
| Recent Successful Examples of Alkanes Oxidation / 9.2: |
| Oxidation of Ethane to Acetic Acid / 9.2.1: |
| Ammoxidation of Propane to Acrylonitrile / 9.2.2: |
| New Oxidation Technologies: Oxidative Desulfurization (ODS) of Gas Oil / 9.3: |
| Process Intensification in Catalytic Oxidation / 9.4: |
| An Alternative Approach: Anaerobic Oxidation with Metal Oxides in a Cycle Process (from an Oxidation Catalyst to a Reusable Stoichiometric Oxidant) / 9.5: |
| Anaerobic Oxidation of Propene to Acrolein in a CFBR Reactor / 9.5.1: |
| Anaerobic Synthesis of 2-Methyl-1,4-Naphthoquinone (Menadione) / 9.5.2: |
| Anaerobic Oxidative Dehydrogenation of Propane to Propene / 9.5.3: |
| Production of Hydrogen from Methane with Oxide Materials and Inherent Segregation of Carbon Dioxide / 9.5.4: |
| Current and Developing Processes for the Transformation of Bioplatform Molecules into Chemicals by Catalytic Oxidation / 9.6: |
| Glycerol: A Versatile Building Block / 9.6.1: |
| Index / 9.7: |
| Preface |
| List of Contributors |
| Concepts in Selective Oxidation of Small Alkane Molecules / Robert Schlogl1: |
| Introduction / 1.1: |
| The Research Field / 1.2: |
| Substrate Activation / 1.3: |
電子ブック
Heterogeneous catalysts : advanced design, characterization and applications (: electronic bk)
