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* Provides a clear and systematic description of the key role played by catalyst reactant dynamism including: (i) the fundamental processes at work, (ii) the origin of its general and physical features, (iii) the way it has evolved, and (iv) how it relates to catalysis in man-made systems. * Unifies homogeneous, heterogeneous, and enzymatic catalysis into a single, conceptually coherent whole. * Describes how to authentically mimic the underlying principles of enzymatic catalysis in man-made systems. * Examines the origin and role of complexity and complex Systems Science in catalysis--very hot topics in science today.…mehr
* Provides a clear and systematic description of the key role played by catalyst reactant dynamism including: (i) the fundamental processes at work, (ii) the origin of its general and physical features, (iii) the way it has evolved, and (iv) how it relates to catalysis in man-made systems. * Unifies homogeneous, heterogeneous, and enzymatic catalysis into a single, conceptually coherent whole. * Describes how to authentically mimic the underlying principles of enzymatic catalysis in man-made systems. * Examines the origin and role of complexity and complex Systems Science in catalysis--very hot topics in science today.
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Gerhard F. Swiegers, PhD, earned his doctorate at the University of Connecticut in 1991 and then worked at the Australian National University and the University of Wollongong, Australia. In 1998, he joined the Commonwealth Scientific and Industrial Research Organization (CSIRO), the major government laboratory in Australia. From 1998 to 2006, he was involved with designing anti-counterfeiting devices for bank notes. In 2005, one of his inventions was commercialized as a spin-off company known as Datatrace DNA Pty Ltd, and in 2006, Dr. Swiegers joined the firm as Vice President, Strategic Research. Several of Dr. Swiegers's inventions are currently used by national governments and major companies around the world.
Inhaltsangabe
PREFACE. CONTRIBUTORS. GLOSSARY. 1. Introduction to Thermodynamic (Energy-Dependent) and Mechanical (Time-Dependent) Processes: What Are They and How Are They Manifested in Chemistry and Catalysis? (Gerhard F. Swiegers). 2. Heterogeneous, Homogeneous, and Enzymatic Catalysis. A Shared Terminology and Conceptual Platform. The Alternative of Time-Dependence in Catalysis (Gerhard F. Swiegers). 3. A Conceptual Description of Energy-Dependent ("Thermodynamic") and Time-Dependent ("Mechanical") Processes in Chemistry and Catalysis (Gerhard F. Swiegers). 4. Time-Dependence in Heterogeneous Catalysis. Sabatier's Principle Describes Two Independent Catalytic Realms: Time-Dependent ("Mechanical") Catalysis and Energy-Dependent ("Thermodynamic") Catalysis (Gerhard F. Swiegers). 5. Time-Dependence in Homogeneous Catalysis. 1. Many Enzymes Display the Hallmarks of Time-Dependent ("Mechanical") Catalysis. Nonbiological Homogeneous Catalysts Are Typically Energy-Dependent ("Thermodynamic") Catalysts (Robin Brimblecombe, Jun Chen, Junhua Huang, Ulrich T. Mueller-Westerhoff and Gerhard F. Swiegers). 6. Time-Dependence in Homogeneous Catalysis. 2. The General Actions of Time-Dependent ("Mechanical") and Energy-Dependent ("Thermodynamic") Catalysts (Robin Brimblecombe, Jun Chen, Junhua Huang, Ulrich T. Mueller-Westerhoff, and Gerhard F. Swiegers). 7. Unifying the Many Theories of Enzymatic Catalysis. Theories of Enzymatic Catalysis Fall into Two Camps: Energy-Dependent ("Thermodynamic") and Time-Dependent ("Mechanical") Catalysis (Gerhard F. Swiegers). 8. Synergy in Heterogeneous, Homogeneous, and Enzymatic Catalysis. The "Ideal" Catalyst (Gerhard F. Swiegers). 9. A Conceptual Unification of Heterogeneous, Homogeneous, and Enzymatic Catalysis (Gerhard F. Swiegers). 10. The Rational Design of Time-Dependent ("Mechanical") Homogeneous Catalysts. A Literature Survey of Multicentered Homogeneous Catalysis (Junhua Huang and Gerhard F. Swiegers). 11. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 1. A Fully Functional Mimic of the Water-Oxidizing Center (WOC) in Photosystem II (PSII) (Robin Brimblecombe, G. Charles Dismukes, Greg A. Felton, Leone Spiccia, and Gerhard F. Swiegers). 12. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 2. Highly Efficient, "Biomimetic" Hydrogen-Generating Electrocatalysts (Jun Chen, Junhua Huang, Gerhard F. Swiegers, Chee O. Too, and Gordon G. Wallace). 13. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 3. A Readily Prepared, Convergent, Oxygen-Reduction Electrocatalyst (Jun Chen, Gerhard F. Swiegers, Gordon G. Wallace, and Weimin Zhang). Appendix A Why Is Saturation Not Observed in Catalysts that Display Conventional Kinetics? Appendix B Graphical Illustration of the Processes Involved in the Saturation of Molecular Catalysts. Index.
PREFACE. CONTRIBUTORS. GLOSSARY. 1. Introduction to Thermodynamic (Energy-Dependent) and Mechanical (Time-Dependent) Processes: What Are They and How Are They Manifested in Chemistry and Catalysis? (Gerhard F. Swiegers). 2. Heterogeneous, Homogeneous, and Enzymatic Catalysis. A Shared Terminology and Conceptual Platform. The Alternative of Time-Dependence in Catalysis (Gerhard F. Swiegers). 3. A Conceptual Description of Energy-Dependent ("Thermodynamic") and Time-Dependent ("Mechanical") Processes in Chemistry and Catalysis (Gerhard F. Swiegers). 4. Time-Dependence in Heterogeneous Catalysis. Sabatier's Principle Describes Two Independent Catalytic Realms: Time-Dependent ("Mechanical") Catalysis and Energy-Dependent ("Thermodynamic") Catalysis (Gerhard F. Swiegers). 5. Time-Dependence in Homogeneous Catalysis. 1. Many Enzymes Display the Hallmarks of Time-Dependent ("Mechanical") Catalysis. Nonbiological Homogeneous Catalysts Are Typically Energy-Dependent ("Thermodynamic") Catalysts (Robin Brimblecombe, Jun Chen, Junhua Huang, Ulrich T. Mueller-Westerhoff and Gerhard F. Swiegers). 6. Time-Dependence in Homogeneous Catalysis. 2. The General Actions of Time-Dependent ("Mechanical") and Energy-Dependent ("Thermodynamic") Catalysts (Robin Brimblecombe, Jun Chen, Junhua Huang, Ulrich T. Mueller-Westerhoff, and Gerhard F. Swiegers). 7. Unifying the Many Theories of Enzymatic Catalysis. Theories of Enzymatic Catalysis Fall into Two Camps: Energy-Dependent ("Thermodynamic") and Time-Dependent ("Mechanical") Catalysis (Gerhard F. Swiegers). 8. Synergy in Heterogeneous, Homogeneous, and Enzymatic Catalysis. The "Ideal" Catalyst (Gerhard F. Swiegers). 9. A Conceptual Unification of Heterogeneous, Homogeneous, and Enzymatic Catalysis (Gerhard F. Swiegers). 10. The Rational Design of Time-Dependent ("Mechanical") Homogeneous Catalysts. A Literature Survey of Multicentered Homogeneous Catalysis (Junhua Huang and Gerhard F. Swiegers). 11. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 1. A Fully Functional Mimic of the Water-Oxidizing Center (WOC) in Photosystem II (PSII) (Robin Brimblecombe, G. Charles Dismukes, Greg A. Felton, Leone Spiccia, and Gerhard F. Swiegers). 12. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 2. Highly Efficient, "Biomimetic" Hydrogen-Generating Electrocatalysts (Jun Chen, Junhua Huang, Gerhard F. Swiegers, Chee O. Too, and Gordon G. Wallace). 13. Time-Dependent ("Mechanical"), Nonbiological Catalysis. 3. A Readily Prepared, Convergent, Oxygen-Reduction Electrocatalyst (Jun Chen, Gerhard F. Swiegers, Gordon G. Wallace, and Weimin Zhang). Appendix A Why Is Saturation Not Observed in Catalysts that Display Conventional Kinetics? Appendix B Graphical Illustration of the Processes Involved in the Saturation of Molecular Catalysts. Index.
Rezensionen
This book is a useful addition to the library of any individual working with functionalized catalysts, especially those that may undergo conformational changes during the reaction process. This text is especially informative for those working with enzymes, biomimetic, and organometallic based catalysts. It also unifies many of the kinetic models that have been put forth to describe heterogeneous, homogeneous, and enzymatic catalysis. ( Journal of the American Chemical Society , October 2009)
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