Heiz, U. & Landman, U. ed.
Nanocatalysis
Springer-Verlag 2007.
503 pp.(H) * 228 illus
ISBN 3-540-32645-6
25,000円
Contents
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 Sub-Nanometer Thin Oxide Films at Surfaces of Late Transition Metals.- 6. Catalytic Applications for Gold Nanotechnology.
* 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. *
Meyer, F. & Limberg, C. ed.
Organometallic Oxidation Catalysis
With contributions by numerous experts
Springer-Verlag 2007.1
253 pp. (H)
ISBN 3-540-37209-1
26,400円
Contents
1. Intrinsic Mechanisms of Oxidation Reactions as Revealed by Gas-Phase Experiments / 2. Dioxygen Activation by Organometallics of Early Transition Metals / 3. Organorhenium and Organomolybdenum Oxides as Heterogenised Catalysts / 4. The SOHIO Process as an Inspiration for Molecular Organometallic Chemistry / 5. Catalysis and Organometallic Chemistry of Rhodium and Iridium in the Oxidation of Organic Substrates / 6. The Role of NHC Ligands in Oxidation Catalysis / 7. Palladium-Catalyzed Oxidation Reactions: Comparison of Benzoquinone and Molecular Oxygen as Stoichiometric Oxidants / 8. Homogeneous Copper-Catalyzed Oxidations /
* Eighty per cent of all compounds produced in the chemical and pharmaceutical industries require at least one essential catalytic step during their synthesis. At the same time the use of hydrocarbons as a feed-stock for commodity and fine chemicals typically requires an oxidation step, which is usually mediated by a transition metal compound. Consequently oxidation catalysis is a major research field in chemistry, both in academia and in industry. *
Niemantsyerdriet, J. W.
Spectroscopy in Catalysis 3rd ed.
An Introduction
(触媒の表面分析におけるスペクトロスコピー)
Wiley -VCH 2007.6
344 pp. (H)
ISBN 3-527-31651-5
16,200円
Contents
Part 1.INTRODUCTION: 1. Heterogeneous Catalysis / 2. Aim of Catalysis Characterization / 3. Spectroscopic Techniques / 4. Research Strategies / Part 2.TEMPERATURE PROGRAMMED TECHNIQUES: 5. Temperature Programmed Reduction / 6. Sulfidation and Reaction Spectroscopy / 7. Thermal Desorption Spectroscopy / Part 3.PHOTOEMISSION AND AUGER SPECTROSCOPY: 8. X-Ray Photoelectron Spectroscopy / 9. Ultraviolet Photoelectron Spectroscopy / 10. Auger Electron Spectroscopy / Part 4.ION SPECTROSCOPIES: 11. Secondary Ion and Neutral Mass Spectrometry / 12. Rutherford Backscattering and Low Energy Ion Spectroscopy / Part 5.MlSSBAUER SPECTROSCOPY DIFFRACTION AND EXAFS: 13. X-Ray Diffraction / 14. Low Energy Electron Diffraction and Extended X-Ray Absorption Fine Structure / Part 6.MICROSCOPY AND RELATED TECHNIQUES: 15. Electron Microscopy / 16. Scanning Probe Microscopy / 17. Field Emission and Ion Microscopy / Part 7.VIBRATIONAL SPECTROSCOPIES: 18. Infrared, Raman and Electron Energy Loss Spectroscopy / 19. Case Studies in Catalyst Characterization / *
* Superbly organized and of great pedagogic value, 'Spectroscopy in Catalysis' describes the most important modern analytical techniques used to investigate catalytic surfaces. These include electron, ion, and vibrational spectroscopy, mass spectrometry, temperature-programmed techniques, diffraction, and microscopy. With the focus on practical use, rather than theory, each chapter presents current applications to illustrate the type of information that the technique provides and evaluates its possibilities and limitations, allowing selection of the best catalyst and the correct technique to solve a given problem. *
Bargon, J. & Kuhn, L. T. ed.
In situ NMR Methods in Catalysis
Springer-Verlag 2007.7
169 pp. (H)
ISBN 3-540-71426-X
25,000円
Contents
1. Homogeneous Catalysis in Ionic Liquids.- 2. Transfer of Parahydrogen-Induced Hyperpolarization to Heteronuclei.- 3. Investigations in Supercritical Fluids.- 4. Continuous Asymmetric Hydrogenation.- 5. Exploiting Nuclear Spin Polarization to Investigate Free Radical Reactions via in situ NMR
* So much is covered here in critical review, from the present position of developing research to future trends, that this book will still be an indispensable text ten years from now. The text is also available online at www.springerlink.com. *
Cejka, J. et al.
Introduction to Zeolite Molecular Sieves 3rd ed.
Studies in Surface Science and Catalysis, Vol. 168
ゼオライト分子ふるい
Elsevier Science Ltd. 2007.8
800 pp.(H)
ISBN 0-444-53063-0
38,000円
Contents
* 本書第3版は、分子ふるい化学と工学における理論と研究成果、分子ふるいの研究に関する主要な実験手法をまとめ、また分子ふるい化学における新たな分野を紹介しています。
* 本書の各章は、導入部分において基礎的な内容を簡単にまとめ、さらに現在の最新技術も網羅しています。収録対象は分子ふるいの構造、合成、評価、電子交換、吸着、拡散、分離と天然のゼオライトなど、ゼオライトに関するあらゆるトピックを網羅しています。
Table of Contents:
Chapter 1. Zeolite Scene (T. Maesen). Chapter 2. Zeolite structures (L.B. McCusker). Chapter 3. Synthesis of zeolites (Jihong Yu). Chapter 4. Aluminophosphates with new structures (S. Wilson). Chapter 5. Organic templates and zeolite synthesis (A. Burton, I. Zones). Chapter 6. Molecular sieve membranes ミ synthesis, characterization and application (A. Julbe). Chapter 7. Synthesis of delaminated and pillared materials and clays (W.J. Roth). Chapter 8. Synthesis of mesoporous molecular sieves (D.Y. Zhao). Chapter 9. Micro/mesoporous composite molecular sieves (S. Mintova, J. Cejka). Chapter 10. Organic ミ inorganic porous hybride systems (G. Ferey). Chapter 11. Diffraction techniques (R. Morris). Chapter 12. Solid state NMR spectroscopy in zeolite science (A. Gedeon). Chapter 13. Infrared and Raman spectroscopy and zeolites (J.A. Lercher, A. Jentys). Chapter 14. TEM of molecular sieves (O. Terasaki). Chapter 15. Textural characterization (M. Thommes). Chapter 16. Ion exchange (A. Dyer). Chapter 17. Adsorption and microcalorimetry on molecular sieves (P. Llewellyn, G. Maurin). Chapter 18. Host-guest interactions in zeolites and mesoporous molecular sieves (T. Bein). Chapter 19. Molecular modeling (R. Catlow). Chapter 20. Quantum chemistry in zeolite science (P. Nachtigall, J. Sauer). Chapter 21. Diffusion and separation in molecular sieves (D. Ruthven). Chapter 22. Acid and base catalysis on zeolites (J. Weitkamp, M. Hunger). Chapter 23. Catalysis on mesoporous molecular sieves (J. Vartuli). Chapter 24. Hydrocarbon processing (M. Rigutto). Chapter 25. Immobilization, ship-in-the-bottle (P.A. Jacobs). Chapter 26. Fine chemicals (H. van Bekkum). Chapter 27. Natural zeolites and environment (C. Colella)/ *
Chorkendorff, I. & Niemantsverdriet , J.
Concpts of Modern Catalysis and Kinetics 2nd ed.
触媒反応・速度論の基礎
Wiley -VCH 2007.10
477 pp.(H)
ISBN 3-527-31672-8
12,600円
Contents
part.1.INTRODUCTION TO CATALYSIS:/What is Catalysis/Catalysts Can Be Atoms, Molecules, Enzymes and Solid Surfaces/ Why is Catalysis Important/ Catalysis as a Multidisciplinary Science/ The Scope of This Book/ Catalysis in Journals/ General References to Textbooks in Catalysis/ part.2.KINETICS: Introduction/ The Rate Equation and Power Rate Laws/ Reactions and Thermodynamic Equilibrium/ Temperature Dependence of the Rate/ Integrated Rate Equations: Time Dependence of Concentrations in Reactions of Different Orders/ Coupled Reactions in Flow Reactors: The Steady-state Approximation/ Coupled Reactions in Batch Reactors/ Catalytic Reactions/ Langmuir Adsorption Isotherms/ Reaction Mechanisms/ Entropy, Entropy Production, Auto Catalysis and Oscillating Reactions/ Kinetics of Enzyme-catalyzed Reactions/ part.3.REACTION RATE THEORY: Introduction/ The Boltzmann Distribution and the Partition Function/ Partition Functions of Atoms and Molecules/ Molecules in Equilibrium Collision Theory/ Activation of Reacting Molecules by Collisions: The Lindermann Theory/ Transition State Theory/ Transition State Theory of Surface Reactions Summary/ part.4.CATALYST CHARACTERIZATION: Introduction/ X-Ray Diffraction (XRD)/ X-Ray Photoelectron Spectroscopy (XPS)/ Extended X-Ray Absorption Fine Structure (EXAFS)/ Electron Microscopy/ Mssbauer Spectroscopy/ Ion Spectroscopy: SIMS, LEIS, RBS/ Temperature-programmed Reduction, Oxidation and Sulfidation/ Infrared Spectroscopy/ Surface Science Techniques/ Concluding Remarks/ part.5.SOLID CATALYSTS: Requirements of a Successful Catalyst/ Structure of Metals, Oxides and Sulfides and their Surfaces/ Characteristics of Small Particles and Porous Material/ Catalyst Supports/ Preparation of Supported Catalysts/ Unsupported Catalysts/ Zeolites/ Catalyst Testing/ part.6.SURFACE REACTIVITY: Introduction/ Physisorption/ Chemical Bonding/ Chemisorption/ Important Trends in Surface Reactivity/ part.7.KINETICS OF REACTIONS ON SURFACES: Elementary Surface Reactions/ Kinetic Parameters from Fitting Langmuir-Hinshelwood Models/ Micro-kinetic Modeling/ part.8.HETEROGENEOUS CATALYSIS IN PRACTICE: HYDROGEN: Introduction/ Steam Reforming Process/ Reactions of Synthesis Gas/ Water Gas Shift Reaction/ Synthesis of Ammonia/ Promoters and Inhibitors/ The Hydrogen Society/ part.9.OIL REFINING AND PRETROCHEMISTRY: Crude Oil/ Hydrotreating/ Gasoline Production/ Petrochemistry: Reactions of Small Olefins/ part.10.ENVIRONMENTAL CATALYSIS: Introduction/ Automotive Exhaust Catalysis/ Air Pollution by Large Stationary Sources/ part.11.QUESTIONS AND EXERCISES: Appendix A/ Index/
* Until now, the literature has offered a rather limited approach to the use of fundamental kinetics and their application to catalytic reactions. Subsequently, this book spans the full range from fundamentals of kinetics and heterogeneous catalysis via modern experimental and theoretical results of model studies to their equivalent large-scale industrial production processes. *
Centi, G. & van Santen,R. A. ed.
Catalysis for Renewables
From Feedstock to Energy Production
Wiley-VCH, (DEU) 2007.10
448pp.(H)
ISBN 3-527-31788-0
24,400円
Contents
1.Renewable Catalytic Technologies, a perspective/ 2.Biomass Conversion: An Introduction to Chemistry, Process and Economics/ 3.Process Options for the Catalytic Conversion of Renewables to Bioproducts/ 4.Industrial Development and Application of Biobassed Oleochemicals/ 5.Fine Chemicals from Renewables/ 6.Options for Catalysis in the Thermochemical Conversion of Biomass into Fuels/ 7.Thermal Biomass Conversion/ 8.Thermal Biomass Conversion and NOx Emissions in Grate Furnaces Bioethanol/ 9.Conversion of Glycerol to Traffic Fuels 10.Catalytic Transformation of Glycerol 11.Catalytic 12.Process for the Selective Epoxidation of Fatty Acids; More Environmentally Benign Routes/ 13.Integration of Biocatalysis with Chemocatalysis; Cascade Catalysis and Multi-step Conversions in Concert/ 14.Hydrogen Production and Fuel Cells as the Bridging Technologies Towards a Sustainable Energy System/ 15.Pathways to Clean and Green Hyrogen/ 16.Solar Energy as a Source of Hydrogen and for CO2 Conversion/ index/ *With its focus on catalysis and addressing two very hot and timely topics with significant implications for our future lives, this will be a white book in the field. *
380-30 登録日 08.01.09
