Principles and Practice of Heterogeneous Catalysis - Taschenbuch

EAN (ISBN-13): 9783527314584
ISBN (ISBN-10): 352731458X
Gebundene Ausgabe
Taschenbuch
Erscheinungsjahr: 2014
Herausgeber: Wiley-VCH

Buch in der Datenbank seit 2014-10-10T07:09:10+02:00 (Berlin)
Detailseite zuletzt geändert am 2023-04-05T10:52:20+02:00 (Berlin)
ISBN/EAN: 352731458X

ISBN - alternative Schreibweisen:
3-527-31458-X, 978-3-527-31458-4
Alternative Schreibweisen und verwandte Suchbegriffe:
Autor des Buches: john thomas, wiley vch, thoma
Titel des Buches: cata, het, catal, cat, principles and practice heterogeneous catalysis

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Daten vom Verlag:

Autor/in: John M. Thomas; W. J. Thomas
Titel: Principles and Practice of Heterogeneous Catalysis
Verlag: Wiley-VCH; Wiley-VCH
768 Seiten
Erscheinungsjahr: 2014-12-17
Gedruckt / Hergestellt in Singapur.
Gewicht: 1,608 kg
Sprache: Englisch
102,00 € (DE)
104,90 € (AT)
Available
170mm x 244mm x 36mm

BC; Hardcover, Softcover / Chemie/Organische Chemie; Organische Chemie; Verstehen; Anorganische Chemie; Catalysis; Chemie; Chemistry; Coordination Chemistry; Heterogene Katalyse; Industrial Chemistry; Inorganic Chemistry; Katalyse; Koordinationschemie; Organic Chemistry; Organische Chemie; Physical Chemistry; Physikalische Chemie; Technische u. Industrielle Chemie; Technische u. Industrielle Chemie; Katalyse; Anorganische Chemie; Koordinationschemie; Organische Chemie; Physikalische Chemie

Preface 1 Setting the Scene 1.1 Prologue: Advances since the Early 1990s. 1.2 Introduction 1.3 Perspectives in Catalysis: Past, Present, Future 1.4 Definition of Catalytic Activity 1.5 Key Advances in Recent Theoretical Treatments: Universability in Heterogeneous Catalysis 1.6 Milestones Reached in Industrial Catalysis in the 20th Century, and Some Consequential Challenges 2 The Fundamentals of Adsorption: Structural and Dynamical Considerations, Isotherms, and Energetics 2.1 Catalysis Must Always be Preceded by Adsorption 2.2 The Surfaces of Clean Solids are Sometimes Reconstructed 2.3 There are Many Well-Defined Kinds of Ordered Adlayers 2.4 Adsorption Isotherms and Isobars 2.5 Dynamical Considerations 2.6 Relating the Activation Energy to the Energy of Chemisorption. Universality in Heterogeneous Catalysis and the BrØnsted-Evans-Polanyi (BEP) Relation. 2.7 Deriving Adsorption Isotherms from Kinetic Principles 2.8 Energetics of Adsorption 2.9 Mobility at Surfaces 2.10 Kinetics of Surface Reactions 2.11 Autocatalytic, Oscillatory, and Complex Heterogeneous Reactions 2.12 Microkinetics: A Summary 3 The Characterization of Industrial and Model Solid Catalysts 3.1 Non-Invasive Methods Suitable for Studies Involving Catalytic Reactors 3.2 A Portfolio of Modern Methods: Introducing the Acronyms 3.3 Which Elements and Which Phases are Present? 3.4 Probing Surfaces with IR, HREELS, AES and XPS 3.5 Ultraviolet-Visible and Photoluminescence Spectroscopy 3.6 The Structure and Crystallography of Surfaces: Nature of Ordered and Reconstructed Surfaces 3.7 Other Structural Techniques for Characterizing Bulk and Surfaces of Catalysts 3.8 A Miscellany of Other Procedures 3.9 Determining the Strength of Surface Bonds: Thermal and Other Temperature-Programmed Methods 3.10 Reflections on the Current Scene Pertaining In Situ Methods of Studying Catalysts 4 Porous Catalysts: Their Nature and Importance 4.1 Definitions and Introduction 4.2 Determination of Surface Area 4.3 Mercury Porosimetry 4.4 Wheeler´s Semi-Empirical Pore Model 4.5 Diffusion in Porous Catalysts 4.6 Chemical Reaction in Porous Catalyst Pellets 5 Solid State Chemical Aspects of Heterogeneous Catalysts 5.1 Recent Advances in Our Knowledge of Some Metal Catalysts: Extended and in Cluster or Nanoparticle States 5.2 Comments on the Catalytic Behaviour of Nanogold 5.3 Recent Advances in the Elucidation of Certain Metal-Oxide Catalysts 5.4 Atomic-Scale Edge Structures in Industrial-Style MoS2 Nanocatalysts 5.5 Open-Structure Catalysts: From 2D to 3D 5.6 Computational Approaches 5.7 A Chemist´s Guide to the Electronic Structure of Solids and Their Surfaces 5.8 Key Advances in Recent Theoretical Treatments of Heterogeneous Catalysis 5.9 Selected Applications of DFT to Catalysis 5.10 Concluding Remarks Concerning DFT Calculations in Heterogeneous Catalysis 6 Poisoning, Promotion, Deactivation and Selectivity of Catalysts 6.1 Background 6.2 Catalyst Deactivation 6.3 Some Modern Theories of Poisoning and Promotion 7 Catalytic Process Engineering 7.1 Novel Operating Strategies 7.2 Traditional Catalytic Reactors 8 Heterogeneous Catalysis: Examples, Case Histories, Current Trends 8.1 The Synthesis of Methanol 8.2 Fisher-Tropsch Catalysis 8.3 Synthesis of Ammonia 8.4 Oxidation of Ammonia: Stepping Towards the Fertilizer Industry 8.5 In-Situ Catalytic Reaction and Separation 8.6 Automobile Exhaust Catalysts and the Catalytic Monolith 8.7 Photocatalytic Breakdown of Water and the Harnessing of Solar Energy 8.8 Catalytic Processes in the Petroleum Industry 9 Powering the Planet in a sustainable manner: some of tomorrow´s catalysts (actual and desired) and key catalytic features pertaining to renewable feedstocks, green chemistry and clean technology 9.1 Introduction 9.2 Powering the Planet with Solar Fuel 9.3 Some Significant Advances in Photo-assisted Water Splitting and Allied Phenomena 9.4 The Hydrogen Economy 9.5 Some of Tomorrow´s Catalysts: Actual and Desired 9.6 A Biorefinery Capable of Producing Transportation Fuels and Commodity Chemicals 9.7 Non-Enzymatic Catalytic Processing of Biomass-Derived Raw Materials to Selected 9.8 Strategies for the Design of New Catalysts 9.10 Solar-Driven Catalysed Thermochemical Reaction as Alternatives to Fossil-Fuel