Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Murzin, Dmitry (1963-....)
Salmi, Tapio
Titre(s) : Catalytic kinetics [Texte électronique] : chemistry and engineering / Dmitry Yu. Murzin and Tapio Salmi
Édition : Second edition
Publication : Amsterdam : Elsevier, 2016
Description matérielle : 1 online resource (xii, 740 pages)
Sujet(s) : Catalyse
Cinétique chimique
Identifiants, prix et caractéristiques : ISBN 9780444637536
Identifiant de la notice : ark:/12148/cb451268352
Notice n° :
FRBNF45126835
(notice reprise d'un réservoir extérieur)
Table des matières : Front Cover; Catalytic Kinetics: Chemistry and Engineering; Copyright; Contents; About
the Authors; Preface; Chapter 1: Setting the Scene; Chapter 2: Catalysis; Chapter
3: Elementary Reactions; Chapter 4: Complex Reactions; Chapter 5: Homogeneous Catalytic
Kinetics; Chapter 6: Enzymatic Kinetics; Chapter 7: Heterogeneous Catalytic Kinetics;
Chapter 8: Kinetics of Catalytic Reactions With Multiple/Multifunctional Catalysts;
Chapter 9: Dynamic Catalysis; Chapter 10: Mass Transfer and Catalytic Reactions; Chapter
11: Kinetic Modeling; Index; Back Cover; Dmitry Yu. Murzin; Tapio Salmi
1.1. History1.2. Catalysis; 1.3. Formal Kinetics; 1.4. Acquisition of Kinetic Data;
1.5. Kinetics and Thermodynamics; 1.6. Examples and Exercises; Reference; 2.1. Homogeneous
Catalysis; 2.2. Heterogeneous Catalysis; 2.3. Organocatalysis; 2.4. Examples and Exercises;
Reference; 3.1. Reaction Rate Theory; 3.2. Elementary Reactions in Solutions; 3.3.
Reaction Mechanism; 3.4. Quasi-equilibrium Approximation; 3.5. Relationship Between
Thermodynamics and Kinetics; 3.6. Transition State Theory of Surface Reactions; 3.7.
Rates of Reactions on Nonideal Surfaces
3.8. Deterministic and Stochastic Models3.9. Microkinetic Modeling; 3.10. Compensation
Effect; 3.11. Isotope Effects; 3.12. Examples and Exercises; References; 4.1. Steady
State Kinetics of Complex Reactions; 4.2. Basic Routes of Complex Reactions; 4.3.
Single-Route Steady-State Reaction; 4.4. Topological Analysis of Complex Reactions;
4.5. Electrical Analogy of Reaction Networks; 4.6. Thermodynamic Consistency of Rate
Constants for Complex Networks; 4.7. Kinetic Aspects of Selectivity; 4.8. Parallel
Reactions: Kinetic Coupling; 4.9. Reduction of Complexity; 4.10. Polynomial Kinetics
4.11. Examples and ExercisesReferences; 5.1. Homogeneous Acid-Base Catalysis; 5.2.
Nucleophilic Catalysis; 5.3. Catalysis by Metal Ions; 5.4. Catalysis by Organometallic
Complexes; 5.5. Organocatalysis; 5.6. Polymerization Catalysis; 5.7. Examples and
Exercises; References; 6.1. Enzymatic Catalysis; 6.2. Cooperative Kinetics; 6.3. Inhibition;
6.4. Effects of pH; 6.5. Single Molecule Enzymology; 6.6. Enantioselectivity in Enzyme
Catalyzed Reactions; 6.7. Generalized Rate Laws for Enzymatic Reactions; 6.8. Heterogeneous
Systems/Immobilized Enzymes; 6.9. Examples and Exercises; References
7.1. Reactions on Ideal Surfaces7.2. Reactions on Nonideal Surfaces; 7.3. Selectivity;
7.4. Polyatomic Nature of Reactants and Coverage-Dependent Adsorption Mode; 7.5. Solvent
Effects; 7.6. Ionic Species; 7.7. Transfer of Labeled Atoms in Heterogeneous Catalytic
Reactions; 7.8. Electrocatalytic Kinetics; 7.9. Photocatalytic Kinetics; 7.10. Nanokinetics;
7.11. Examples and Exercises; References; 8.1. General; 8.2. Combined Catalytic and
Noncatalytic Reactions; 8.3. Multiple Catalysts of the Same Type; 8.4. Multiple Catalysts
of Different Types; 8.5. Examples and Exercises; References