Roberts, S. M. & Whittall, J. ed.
Catalysts for Fine Chemical Synthesis
Regio- and Stereo-Controlled Oxidations and Reductions
精密化学合成の触媒
John Wiley & Sons 2007.9
336 pp. (H)
ISBN 0-470-09022-7
25,400円
Contents
1: Industrial Catalysts for Regio- or Stereo- selective Oxidations and Reductions. A Review of Key Technologies and Targets / 2: Asymmetric Hydrogenation of Alkenes, Enones, Ene-esters and Ene-Acids / 3: Asymmetric Reduction of Ketones / 4: Imine Reduction and Reductive Amination / 5: Oxidation of Primary and Secondary Alcohols / 6: Hydroxylation, Epoxidation and Related Reactions / 7: Oxidation of Ketones to Lactones or Enones / 8: Oxidative C-C Coupling / 9: Oxidation of Sulfides and Sulfoxides / *
* Volume 5 in the Catalysts for Fine Chemical Synthesis series describes new procedures for the regio- and stereo-controlled transformations of compounds involving oxidation or reduction reactions. It describes a wide range of catalysts, including organometallic systems, biocatalysts and biomimetics.This volume also includes descriptions of a variety of conversions, including: Baeyer-Villiger oxidations; Epoxidation reactions; Hydroxylation reactions; Oxidation of alcohols to aldehydes, ketones and carboxylic acids; Reduction of ketones; and Reduction of alkenes including α, β-unsaturated carbonyl compounds. The book will be an important text for practising synthetic organic chemists in industry and academia. *
Astruc, D. ed.
Nanoparticles and Catalysis
ナノ粒子と触媒 全2巻
Wiley -VCH 2007.12
660 pp.(H) 2 Vols set
ISBN 3-527-31572-1
49,800円
Contents
* 本書は、現代の化学における最も重要な領域のひとつであるナノ粒子と触媒を、環境に配慮した最新の技術と共に2巻にまとめています。 * 化学合成や重要な反応タイプについて、その触媒におけるナノ粒子の応用技術の概要を詳細に解説しており、触媒化学や、有機化学、固体化学、有機金属、材料化学や化学工学など幅広い分野で活用することが出来ます。
Contents:
1.Transition-metal Nanoparticles in Catalysis: From Historical Background to the State of the Art/ 2.Surfactant-stabilized Nanoparticles as Catalyst Precursors / 3.Scientific Basis, Recent Developments and an Outlook/ 4.Nanoparticle-catalysts Based on Nanostructured Polymers/ 5.PAMAM-dendrimer Templated Catalysts/ 6.Aerogel-supported Nanoparticles in Catalysis/ 7.Transition-metal Catalysis in Imidazolium Ionic Liquids/ 8.Carbon and Silicon Nanotubes-containing Catalysis/ 9.Size-selective Synthesis of Nanostructured Metal- and Metal-oxide Colloids and their Use as Catalysts/ 10.Multimetallic Nanoparticles Prepared by Redox Processes Applied in Catalysis/ 11.The Role of Palladium Nanoparticles as Catalysts for Carbon-carbon Coupling Reactions/ 12.Rhodium and Ruthenium Nanoparticles in Catalysis/ 13.Supported Gold Nanoparticle as Oxidation Catalysts/ 14.Gold Nanoparticle Catalyzed Oxidation in Organic Chemistry/ 15.AuNP-catalyzed Propene Epoxidation by Dioxygen and Dihydrogen/ 16.Gold Nanoparticles: Recent Advances in CO Oxidation/ 17.NO Heterogeneous Catalysis Viewed from the Angle of Nanoparticles/ 18.Hydrocarbon Catalytic Reactivity of Supported Nanometallic Particles/ 19.Surface Organometallic Chemistry on Metallic NPs: Synthesis, Characterization and Application in Catalysis/ *
Heiz, U. & Landman, U. ed.
Nanocatalysis
Springer-Verlag 2008.
503 pp. (P)
ISBN 3-540-74551-3
13,100円
Contents
List of Contributors / 1 Chemical and Catalytic Properties of Size-Selected Free and Supported Clusters / 2 Theory of Metal Clusters on the MgO Surface: The Role of Point Defects / 3 Catalysis by Nanoparticles / 4 Lithographic Techniques in Nanocatalysis / 5 Nanometer and Subnanometer Thin Oxide Films at Surfaces of Late Transition Metals / 6 Catalytic Applications for Gold Nanotechnology / Index /
* Nanocatalysis is one of the most exciting subfields to have emerged from nanoscience. Its central aim is the control of chemical reactions by changing the size, dimensionality, chemical composition and morphology of the reaction center and by changing the kinetics using nanopatterning of the reaction centers. This approach opens up new avenues for atom-by-atom design of nanocatalysts with distinct and tunable chemical activity, specificity, and selectivity. This book is intended to give a pedagogical and methodological overview of this exciting and growing field and to highlight specific examples of current research. *
Knozinger, H. ed.
Advances in Catalysis Vol.49
Academic Press 2006.4
326 pp.(H)
ISBN 0-12-007849-x
23,500円
Contents
1. Directed Evolution of Enantioselective Enzymes as Catalysts for Organic Synthesis (M.T. Reetz)/ 2. Dendrimers in Catalysis (J.N. H. Reek et al.)/ 3. Catalysis in Ionic Liquids (Z. Conrad Zhang)/ 4. Optimization of Alkaline Earth Metal Oxide and Hydroxide Catalysts for Base-Catalyzed Reactions (A. Corma, S. Iborra)/
* Volume 49 reviews the directed evolution of enantioselective enzymes as catalysts for organic synthesis; dendrimers in catalysis and catalysis in ionic liquids; and the optimization of alkaline earth metal oxide and hydroxide catalysts for base-catalyzed reactions. *
Krische, M. J. ed.
Metal Catalyzed Reductive C-C Bond Formation
金属触媒の還元的C-C結合形成:既製の有機金属試薬からの脱却
Springer-Verlag 2007.
264 pp.(H)
ISBN 3-540-72878-3
31,200円
Contents
1.J. Montgomery: Nickel-Catalyzed Reductive Couplings of Aldehydes and Alkynes/ 2.A. Gansuer: Reductive C-C Bond Formation after Epoxide Opening via Electron Transfer/ 3.T. Hirao: Catalytic Reductive Coupling of Carbonyl Compounds - The Pinacol Coupling Reaction and Beyond/ 4.H. Iida: Catalytic Reductive Coupling of Alkenes and Alkynes to Carbonyl Compounds and Imines Mediated by Hydrogen/ 5.H. Nishiyama: Reductive Aldol, Michael and Mannich Reactions/ 6.B. Breit: Recent Advances in Alkene Hydroformylation/ 7.M. Kimura: Nickel-Catalyzed Reductive Coupling of Dienes and Carbonyl Compounds/ 8.R.D. Broene: Reductive Coupling of Unactivated Alkenes and Alkynes/ Index/ *
Harris, K. D. M. & Edwards, P. P. ed.
Turning Points in Solid-State, Materials and Surface Science
A Book in Celebration of the Life and Work of Sir John Meurig Thomas
Royal Society of Chemistry 2007.
910 pp.(H)
ISBN 0-85404-114-1
26,800円
Contents
1. Voyages with the Master/ 2. Multifaceted Studies of Zeolites and Other Catalytic Materials/ 3. The Deductive Approach to Chemistry, a Paradigm Shift/ 4. Future Energy Materials: Three Challenges for Materials Chemistry/ 5. Structural Diversity and Potential Applications of Metal Organic Coordination Polymers/ 6. Elucidating Crystal Growth in Nanoporous Materials: The Importance of MicroscopyMany of the foundations of electron microscopy in nanoporous materials were laid down in the early 1980s by the Cambridge group headed by J.M. Thomas. These principles have been carried forward and in this paper we discuss some of the latest results from atomic force microscopy and high-resolution electron microscopy and put these into a historical perspective/ 7. Exploration of New Porous Solids in the Search for Adsorbents and Catalysts/ 8. Concerning the Solid State Packing of [(ButCO2)3M2]2(u-9,10-anthracenedicarboxylate) Compounds (M?=?Mo or W) and Other Matters/ 9. High Pressure and High Temperature Oxidation in the IrSr2RECu2O8 Family of Cuprates: The Disordered Multiple Perovskite (A1/3 A'2/3)(B1/3 B'2/3)O3-x Phases/ 10. Melting and Amorphisation/ 11. Computer Modelling in Solid-State Chemistry/ 12. Towards a Catalogue of Designer Zeolites/ 13. Discovering New Crystal Architectures/ 14. Chemical Modulations in PbミBi Sulfosalts: A Glimpse at Minerals in Solid-State Chemistry/ 15. Complexity: In the Eye of the Beholder (This Beholder is a Crystallographer)/ 16. Synthesis and Characterization of Zn-T-Sites in Mazzite/ 17. Anything Protons Do, Muons Do Better!/ 18. Molecular Cohesion and the Structure of Organic Crystals/ 19. Aperiodicity in Organic Materials/ 20. From the Synthesis of Acetylenic Natural Products to Seeing the Light with Polymers/ 21. Molecular Recognition within One-Dimensional Channels/ 22. FTIR Study of Short Range Mobility in Some Crystalline Peroxides: Solid-State Rotational Isomerism of CO2/ 23. From ヤNatureユ to an Adventure in Single-Site Epoxidation Catalysis/ 24. A Comparison between Enzymes and Solid State Catalysts/ 25. Zeolite Modelling: Active Sites in Different Framework Structures and in Different Crystallographic Positions/ 26. Magnetic Resonance Imaging: A New Window on the Catalyst Operating in the Reactor Environment/ 27. Dissociative Chemisorption of Hydrogen Chloride at Cu(110): Atom-Resolved Time-Dependent Evidence for Transient States in the Formation of the メFinal Stateモ Stable Chloride Overlayer/ 28. Recent Advances in Single-Site Photocatalysts Constructed within Microporous and Mesoporous Materials/ 29. Structural Organization of Catalytic Functions in Mo-Based Selective Oxidation Catalysts/ 30. Designing Active Sites for Surfaces: From Tightly Bound to Loosely Anchored/ 31. Polynuclear Transition Metal Cluster Complexes Containing Tin Ligands: Precursors to New Heterogeneous Nano-Catalysts/ 32. Selective Oxidation Using Gold and GoldミPalladium Nanoparticles/ 33. Electronic Factors in Hydrocarbon Oxidation Catalysis/ 34. The Importance of Selectivity in Ammoxidation Catalysis/ 35. The Mysteries of Water in Catalyst Preparation: Solvent or Much More?/ 36. Solid Acid Microporous H-SAPO-34: From Early Studies to Perspectives/ 37. Strategically Designed Single-Site Heterogeneous Catalysts for Clean Technology, Green Chemistry and Sustainable Development/ 38. Catalysis by Lewis Acids: Basic Principles for Highly Stereoselective Heterogeneously Catalyzed Cyclization Reactions/40. Electron Microscopy Studies of Structural Modulation in Micro- and Meso-Porous Crystals/ 41. Extrapolating from Fifty Years of Dislocation Imaging ミ Reaching into the Core/ 42. Turning Points in Understanding the Emission of Brilliant Light from Highly Defective GaN-Based Materials and Devices/ 43. Electron Tomography: A 3D View of Catalysts and Nanoscale Structures/ 44. Nano and Mesoporous Materials: A Study by HREM/ 45. In Situ Direct Observation at Atomic Scale Twinning Transformations and the Formation of Carbon Nanostructures in WC/ 46. A Survey of the Bi2O3ミMoO3 Binary System/ 47. An Investigation of the Surface Structure of Nanoparticulate Systems Using Analytical Electron Microscopes Corrected for Spherical Aberration/ 48. Design and Chance in My Scientific Research/ Appendix 1. Tribute to John Meurig Thomas on the Occasion of His 75th Birthday/ Appendix 2. John Meurig Thomas and the Royal Institution/ Appendix 3. Sir John Meurig Thomas: An Unforgettable Person Appendix/ 4. John Meurig Thomas on His 75th Birthday/ Appendix 5. Remembering a Period of Work with Sir John Meurig Thomas/ Appendix 6. Reflections on John Meurig Thomas on the Occasion of His 75th Birthday/ Appendix 7. Bangor 1966ミ1969; Aberystwyth 1969ミ1973; Some Fond Reflections/ Appendix 8. Aberystwyth 1970-1973. Reflections and Lessons Learnt Appendix 9. Molecular Modelling Input to Organic Solid State and Zeolite Chemistry: Reminiscences (1975-84) / Appendix 10. Reflections of a Cambridge Undergraduate/ Appendix 11. Sir John Meurig Thomas/ Appendix 12. Getting the Details Correct/ Appendix 13. Tribute to Sir John Meurig Thomas on the Occasion of His 75th Birthday/ Appendix 14. Solid State Chemistry and the Edward Davies Chemical Laboratories/ Subject Index/ *
380-31 登録日 08.04.05
