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Title:
Handbook of Heterogeneous Catalysis, 8 Volumes, 2nd Edition |
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Division: General Physical / John Wiley & Son / 英文版 |
Author/Editor: Gerhard Ertl (Editor), Helmut Knözinger (Editor), Ferdi Schüth ( Star:  |
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ISBN: 3527312412 |
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Introduce Date: 2008年03月12日12:09 , Release Date: 2008年03月12日12:51 |
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Introducer: mjuchem , Rate: 17/532 |
| Format: pdf(editorial) Download |
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| Appraiser: abridge | Grade: +3 | Reason: ( 这本书很棒 ) | | | Appraiser: chnweiwang | Grade: +5 | Reason: ( 这本书很棒 ) | | | Appraiser: dreamwalk | Grade: +5 | Reason: ( 这本书很棒 ) | | | Appraiser: gzdmfc | Grade: +2 | Reason: ( The book is complete despite the file name,sorry. ) | | | Appraiser: gzdmfc | Grade: +5 | Reason: ( Good book, but file 63 & 83 were missing. ) | |
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| Description: |
Handbook of Heterogeneous Catalysis, 8 Volumes, 2nd Edition
Gerhard Ertl (Editor), Helmut Knözinger (Editor), Ferdi Schüth (Editor), Jens Weitkamp (Editor)
ISBN: 978-3-527-31241-2
Hardcover
4270 pages
April 2008
Wiley List Price: US $2,355.00
Now in 8 volumes, the completely revised and expanded second edition of this much-cited handbook collates the knowledge available on heterogeneous catalysis, providing easy-to-find yet comprehensive information. The new edition contains some 80% more material and takes into account the latest developments in the field, making it still the most up-to-date compendium in heterogeneous catalysis. More than 300 leading experts -- a veritable "Who's Who" in catalysis -- contributed to this unrivalled masterpiece, covering all aspects of the subject, from the physico-chemical foundations to large-scale industrial applications.
With its straightforward presentation, this is an essential and indispensable tool for every scientist working in this area.
Preparation of Solid Catalysts
Characterization of Solid Catalysts
Model Systems
Elementary Steps and Mechanisms
Kinetics and Transport Processes
Deactivation and Regeneration
Special Catalytic Systems
Laboratory Reactors
Reaction Engineering
Environmental Catalysis
Inorganic Reactions
Energy-related Catalysis
Organic Reactions
1
Introduction
1.1
Principles of Heterogeneous Catalysis (James A. Dumesic)
1.2
Development of the Science of Catalysis (Burtron H. Davis)
1.3
Development of Industrial Catalysis (Uwe Dingerdissen)
2
Preparation of Solid Catalysts
2.1
Developing Industrial Catalysis (Ewald Gallei)
2.2
Computer-Aided Strategies for Catalyst Development (Manfred Baerns)
2.3
Bulk Catalysts and Supports
2.3.1
Fused Catalysts (Robert Schl0‹2gl)
2.3.2
Skeletal Metal Catalysts (Mark S. Wainwright)
2.3.3
Precipitation and Co-precipitation (Ferdi Sch¨¹th)
2.3.4
Sol-Gel Process (Miron V. Landau)
2.3.5
Hydrothermal Zeolite Synthesis (Pierre A. Jacobs)
2.3.6
Ordered Mesoporous Materials (Freddy Kleitz)
2.3.7
Pillared Clays (Jos¨¦ J. Fripiat)
2.3.8
Metal Organic Frameworks (Ulrich M¨¹ller)
2.3.9
Sulfated Zirconia and Related Materials (Friederieke Jentoft)
2.3.10
Ion Exchange Resins (Bruce C. Gates)
2.3.11
Flame Hydrolysis (Dieter Kerner)
2.3.12
Solid-State Reactions (Bernard Delmon)
2.3.13
Heteropoly Compounds (Makoto Misono)
2.3.14
High-Surface Area Carbides, Nitrides and Phosphides (S. Ted Oyama)
2.3.15
Carbons (Robert Schl0‹2gl)
2.4
Supported Catalysts
2.4.1
Deposition Precipitation (John W. Geus)
2.4.2
Impregnation and Ion Exchange (Michel Che)
2.4.3
Solid-State Ion Exchange in Zeolites ( Hellmut G. Karge)
2.4.4
Metal Clusters in Zeolites (Wolfgang M. H. Sachtler)
2.4.5
Anchoring and Grafting of Coordination Metal Complexes onto Oxide Surfaces (Michel Che)
2.4.6
Chemical Vapor Deposition and Related Techniques (Yasuhiro Iwasawa)
2.4.7
Spreading and Wetting (Helmut Kn0‹2zinger)
2.4.8
Tribochemical Methods (Bernd Kubias)
2.4.9
Immobilization of Molecular Catalysts (Reiner Anwander)
2.4.10
Ship-in-the-Bottle Catalysts (Stefan Ernst)
2.4.11
Supported Liquid Catalysts (Peter Wasserscheid)
2.4.12
Immobilization of Biological Catalysts (Marion B. Ansorge-Schumacher)
2.5
Formation of the Final Catalyst
2.5.1
Reactions during Catalyst Activation (Bernard Delmon)
2.5.2
Catalyst Forming (Ferdi Sch¨¹th)
2.6
Standard Catalysts
2.6.1
Non-Zeolitic Standard Catalysts (Geoffrey C. Bond)
2.6.2
Zeolite Standard Catalysts (Michael St0‹2cker)
3
Characterization of Solid Catalysts
3.1
Physical Properties
3.1.1
Surface Area and Porosity (Kenneth S. W. Sing)
3.1.2
Particle Size and Dispersion Measurements (Pierre Gallezot)
3.1.3
Structure and Morphology X-Ray Powder Diffraction (Daniel Herein)
3.1.3.2
X-Ray Absorption Spectroscopy (Diek C. Koningsberger)
3.1.3.3
Electron Microscopy and Diffraction (Sbhaya K. Datye)
3.1.3.4
Scanning Probe Techniques (Flemming Besenbacher)
3.1.3.5
Heterogeneous Catalysis and High Electric Fields (Norbert Kruse)
3.1.3.6
Gamma Spectroscopy (J. W. Niemantsverdriet)
3.1.3.7
Solid-State NMR Spectroscopy (Michael Hunger)
3.1.3.8
Vibrational Spectroscopy (Helmut Kn0‹2zinger)
3.1.3.9
Neutron Scattering (Herv¨¦ Jobic)
3.1.3.10
Morphological Characteristics (Friedrich Schmidt)
3.1.4
Mechanical Properties (Friedrich Schmidt)
3.2
Chemical Properties
3.2.1
Bulk Chemical Composition (Peter Albers)
3.2.2
Surface Chemical Composition (Edmund Taglauer)
3.2.3
Valence States
3.2.3.1
Photoelectron and Auger Electron Spectroscopy (Giuliano Moretti)
3.2.3.2
UV/Vis and EPR Spectroscopy (Michel Che)
3.2.3.3
Photoluminescence Spectroscopy (Masakazu Anpo)
3.2.3.4
Muon Spin Resonance (Emil Roduner)
3.2.3.5
Temperature-Programmed Reduction and Oxidation (Helmut Kn0‹2zinger)
3.2.4
Acidity and Basicity
3.2.4.1
Concepts and Analysis of Surface Acidity and Basicity (Hellmut G. Karge)
3.2.4.2
Thermochemical Characterization of Surface Acidity and Basicity (James A. Dumesic)
3.2.4.3
IR Spectroscopy for the Characterization of Surface Acidity and Basicity (Helmut Kn0‹2zinger)
3.2.4.4
NMR Spectroscopy for the Characterization of Surface Acidity and Basicity (Michael Hunger)
3.2.5
Active Phase-Support Interactions
3.2.5.1
Metal-Support Interactions (Bert M. Weckhuysen)
3.2.5.2
Oxide-Oxide Interactions (Bert M. Weckhuysen)
3.2.6
Carbonaceous Deposits (Peter Albers)
3.3
IUPAC Recommandations
3.3.1
Reporting Physisorption Data for Gas/Solid Systems
3.3.2
Methods and Procedures for Catalyst Characterization (J. Haber, J. H. Block, B. Delmon)
4
Model Systems
4.1
Single-Crystal Surfaces (Gabor A. Somorjai)
4.2
Supported Metal Clusters (Bruce C. Gates)
4.3
Metallic Glasses (Alfons Baiker)
4.4
Bimetallic Model Catalysts (Jos¨¦ A. Rodriguez)
4.5
Ultrathin Oxide Films (Hans-Joachim Freund)
4.6
Oxide Model Systems (Hicham Idriss)
4.7
Microcrystalline Oxides (Adriano Zecchina)
4.8
Oxide Solid Solutions (Frank S. Stone)
5
Elementary Steps and Mechanisms
5.1
Chemisorption
5.1.1
Principles of Chemisorption (Hans-Joachim Freund)
5.1.2
Reactivity Index Relations in Theoretical Heterogeneous Catalysis (Rutger van Santen)
5.2
Microkinetics
5.2.1
Rates of Catalytic Reactions (James A. Dumesic)
5.2.2
Dynamics of Surface Reactions (G. Ertl)
5.2.3
Theoretical Modelling of Catalytic Reactions (Jens K. N0‹3rskov)
5.2.4
Non-linear Dynamics: Oscillatory Kinetics and Spatio-Temporal Pattern Formation (Gerhard Ertl)
5.2.5
Isotopic Labeling and Kinetic Isotope Effects (Frank Bauer)
5.2.6
Transient Catalytic Studies (Kai-Olaf Hinrichsen)
5.3
Factors Influencing Catalytic Action
5.3.1
Substituent Effects (Helmut Kn0‹2zinger)
5.3.2
Spillover Effects (Frank R0‹20‰8ner)
5.3.3
Ensemble and Ligand Effects in Metal Catalysis (Wolfgang M. H. Sachtler)
5.3.4
Promotors and Poisons (Bruce E. Koel)
5.4
Hydrocarbon Reaction Mechanisms (Bruce C. Gates)
5.5
Computer Simulations
5.5.1
Computer Simulations of Structures and Reactivity (C. Richard A. Catlow)
5.5.2
Molecular Simulation of Adsorption and Diffusion (Doros N. Theodorou)
5.5.3
Computer Simulation of Shape Selectivity Effects (Berend Smit)
6
Makrokinetics and Transport Processes
6.1
Rate Procurement and Kinetic Modelling (Jacob A. Moulijn)
6.2
Diffusion Coefficients in Porous Media (J0‹2rg K0Š1rger)
6.3
Simultaneous Heat and Mass Transfer and Chemical Reaction (Gerhard Emig)
6.4
NMR Tomography (Lynn Gladden)
6.5
Positron Emitters in Catalysis Research (Gert Jonkers)
6.6
Computational Fluid Dynamics Simulation of Catalytic Reactors (Olaf Deutschmann)
7
Activity Loss
7.1
Deactivation and Regeneration (Jacob A. Moulijn)
7.2
Recycling of Spent Catalysts
7.2.1
Recycling of Spent Catalysts Containing Precious Metals (Christian Hagel¨¹ken)
7.2.2
Recycling of Spent Catalysts Containing Base Metals (Sean Axon)
8
Special Catalytic Systems
8.1
Electrocatalysis
8.1.1
Fundamentals of Electrocatalysis (Katharina Krischer)
8.1.2
Electrochemical Modification of Catalytic Activity (Costas G. Vayenas)
8.1.3
Industrial Electrocatalysis (Sigmar Br0Š1uninger)
8.2
Photocatalysis (M. Anpo)
8.3
Chemical Sensors Based on Catalytic Reactions (Klaus Schierbaum)
8.4
Heterogeneous Catalysis in Non-Conventional Solvents (Roger Gl0Š1ser)
8.5
Sonocatalysis (Kenneth S. Suslick)
9
Laboratory Testing of Solid Catalysts
9.1
Laboratory Catalytic Reactors: Aspects of Catalyst Testing (Jacob A. Moulijn)
9.2
Ancillary Techniques in Laboratory Units for Catalyst Testing (Jens Weitkamp)
9.3
High-Throughput-Experimentation in Heterogeneous Catalysis (Ferdi Sch¨¹th)
10
Reaction Engineering
10.1
Catalytic Fixed-Bed Reactors (Gerhart Eigenberger)
10.2
Fluidized-Bed Reactors (Joachim Werther)
10.3
Slurry Reactors (Adrian Schumpe)
10.4
Unsteady-State Reactor Operation (Eng. Yurii Matros)
10.5
Short-Contact-Time Reactors (G0‹2tz Veser)
10.6
Catalytic Distillation (Domenico Sanfilippo)
10.7
Membrane Reactors (J¨¹rgen Caro)
10.8
Microstructured Catalytic Reactors (Albert Renken)
11
Environmental Catalysis
11.1
The Role of Catalysis in Environmental Protection (Wilhelm Keim)
11.2
Automotive Exhaust Treatment (Egbert Lox)
11.3
Treatment of Flue Gases from Stationary Sources (P0Š1r Gabrielsson)
11.4
Catalytic Dehalogenation (R. F. Howe)
11.5
Removal of Volatile Organic Compounds (James J. Spivey)
11.6
Catalytic Combustion (Pio Forzatti)
11.7
Catalytic Routes to Hydro(chloro)fluorocarbons (Z. Ainbinder)
11.8
Heterogeneous Catalysis in the Troposphere (Valentin M. Parmon)
11.9
Conversion of Biomass on Solid Catalysts (Pierre Gallezot)
11.10
Catalysis in Water Remediation (Klaus-Dieter Vorlop)
12
Inorganic Reactions
12.1
Ammonia Synthesis (Robert Schl0‹2gl)
12.2
Ammonia Oxidation (Stephan T. Hatscher)
12.3
HCN Production (J0‹2rg Sauer)
12.4
Claus Process (Eckhard J¨¹ngst)
12.5
Oxidation of Sulfur Dioxide (Fritz N0Š1umann)
12.6
M¨¹ller-Rochow Synthesis (Wilfried Kalchauer)
12.7
Hydrazine Decomposition (Wilhelm Keim)
13
Energy-Related Catalysis
13.1
Perspectives in Oil Refining (Colin Baudouin)
13.2
Hydrotreating (Roel Prins)
13.3
Hydrodemetalation
13.4
Catalytic Reforming (Mark D. Moser, Paula L. Bogdan)
13.5
Fluid Catalytic Cracking (E. Thomas Habib, jr.)
13.6
Hydrocracking and Dewaxing (J. A. Rob van Veen)
13.7
Isomerization (S. T. Sie)
13.8
Alkylation of Isobutane (Jens Weitkamp)
13.9
Oligomerization of Alkenes (Cril T. O'Connor)
13.10
Etherification (Outi Krause)
13.11
Steam Reforming (Jens Rostrup-Nielsen)
13.12
Water Gas Shift (Martin Muhler)
13.13
Methanol Synthesis (John Bogild Hansen)
13.14
Methanol to Hydrocarbons (Steinar Kvisle)
13.15
Fischer-Tropsch Synthesis (Mark E. Dry)
13.16
Gas-to-Liquids (Arend Hoek)
13.17
Oxidative Coupling of Methane (Manfred Baerns)
13.18
Catalysis in Direct Coal Hydrogenation (Matthias W. Haenel)
13.19
Catalysis in Coal and Carbon Gasification (Ljubisa R. Radovic)
13.20
Fuel Cell-Related Catalysis
13.20.1
Fuel Processors (Ralf Peters)
13.20.2
Fuel Cells (J¨¹rgen Garche)
14
Organic Reactions
14.1
Aromatization of Light Alkanes (Cyril T. O'Connor)
14.2
Ring Opening of Aromatics (Jens Weitkamp)
14.3
Alkylation of Aromatics (David L. Stern)
14.4
Isomerization and Transalkylation of Alkylaromatics (Jeffrey S. Beck)
14.5
Non-Oxidative Activation of Alkanes (Yvonne Traa)
14.6
Dehydrogenation of Alkanes (Karl J. Caspary)
14.7
Dehydrogenation of Ethylbenzene (Martin Muhler)
14.8
Metathesis of Alkenes (J. C. Mol)
14.9
Dehydrogenation of Alcohols: Formaldehyde (Wei-Lin Dai)
14.10
Hydrogenation Reactions
14.10.1
Selective Hydrogenation of Hydrocarbons (Johann Gaube)
14.10.2
Selective Hydrogenation of Functionalized Hydrocarbons (Hans-Ulrich Blaser)
14.10.3
Regioselective Hydrogenations (Peter Claus)
14.10.4
Oleochemical Reactions (Bernhard Gutsche)
14.11
Selective Oxidations
14.11.1
Fundamentals of Hydrocarbon Oxidation (J. Haber)
14.11.2
Oxidative Dehydrogenation of Alkanes (Anders Holmen)
14.11.3
Oxyfunctionalization of Alkanes (Stephan Schunk)
14.11.4
Oxyfunctionalization of Alkyl Aromatics (Frank Rosowski)
14.11.5
Direct Ring Oxidation of Aromatics to Phenols (Elias Klemm)
14.11.6
Heterogeneous Catalysis of Alkene Epoxidation (Mark A. Barteau)
14.11.7
Oxyacetylation: Vinyl Acetate from Ethene (Stephan A. Schunk)
14.11.8
Oxidation of C3 Hydrocarbons
14.11.9
Ammoxidation of Hydrocarbons (Robert C. Grasselli)
14.11.10
Ammoximation (Robert C. Grasselli)
14.11.11
Oxidation of Alcohols (Alfons Baiker)
14.11.12
Phenol Hydroxylation and Related Oxidations (Giuseppe Bellussi)
14.12
Amination Reactions (Alfons Baiker)
14.13
Halogenation Reactions (Ratnasamy)
14.14
Acylation of Aromatics (Herman van Bekkum)
14.15
Elimination and Addition Reactions (Helmut Kn0‹2zinger)
14.16
Stereoselective Reactions
14.16.1
Catalysis on Chiral Surfaces (Alfons Baiker)
14.16.2
Enantioselective Catalysis on Anchored Chiral Complexes (Hans-Ulrich Blaser)
14.16.3
Diastereoselective Catalysis (Mich¨¨le Besson)
14.17
Miscellaneous Catalytic Systems
14.17.1
Hydroformylation on Solid Catalysts (Vladimir A. Likholobov)
14.17.2
Wacker Chemistry with Solid Catalysts (Pierre A. Jacobs)
14.17.3
Oxidations on Immobilized Molecular Catalysis (Dirk De Vos)
14.17.4
Production of Chemicals from Carbon Dioxide (Paul Ratnasamy)
15
Polymerization Reactions
15.1
Polymerization on Phillips-Type Catalysts (Max P. McDaniel)
15.2
Polymerization on Molecular Catalysts (Gerhard Fink)
16
Reactions on Immobilized Biocatalysts (Udo Kragl)
Gerhard Ertl studied physics in Stuttgart, Munich and Paris and received his PhD in physical chemistry from the Technical University in Munich. He worked as a professor in Hannover and Munich, as well as a visiting professor at the California Institute of Technology and the University of California, Berkeley. In 1986 he became director at the Fritz Haber Institut in Berlin, where he retired in 2004. He received numerous awards and honours, is the Nobel laureate in chemistry in 2007, and a member of several academies.
Helmut Knözinger studied physics at the University of Munich where he received his PhD in physical chemistry and became a professor of physical chemistry. Currently he works as a retired professor at the Department of Chemistry and Biochemistry of the University of Munich. His research interests are the fields of surface spectroscopy, surface chemistry and heterogeneous catalysis. Prof. Knözinger is co-editor of numerous books and member of several editorial boards. He was President of the International Association of Catalysis Societies IACS and received several national and international awards, such as The Alwin Mittasch-Medal and the Max Planck-Forschungspreis.
Ferdi Schüth studied chemistry and law in Münster, Germany. After he received his PhD Schüth went to Minneapolis, USA for a Post-Doc and then to Mainz university as habilitand. In 1995 he became professor in Frankfurt, Germany. Since 1998 Schüth is Director at the Max-Planck-Institute für Kohlenforschung. His research interests are in the area of materials science and catalysis, especially in the synthesis of catalyst materials. Even though Schüth is a relatively young scientist he is already well decorated with awards, e.g. the Leibniz-Award of the German Science Foundation (DFG). He was recently appointed vice president of the DFG.
Jens Weitkamp studied chemistry in Karlsruhe and Berlin and received his PhD in Chemical Engineering from the University of Karlsruhe. In 1986 he became a professor of Chemical Technology in Oldenburg, and in 1988 he was appointed Director of the Institute of Chemical Technology of the University of Stuttgart, Germany. He is the founder of the journal Microporous and Mesoporous Materials and a co-editor of numerous books on heterogeneous catalysis and zeolites. From 1997 to 2001 he served as the President of the International Zeolite Association (IZA), and since 2002 he has been a Vice-President of DECHEMA, the Society for Chemical Engineering and Biotechnology in Frankfurt.
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