Application of the Marcus Cross Relation to Hydrogen Atom Transfer/Proton-Coupled Electron Transfer Reactions / Jeffrey J. Warren ; James M. MayerChapter 1: |
Introduction / 1.1: |
An Introduction to Marcus Theory / 1.2: |
Predicting Organic Hydrogen Atom Transfer Rate Constants / 1.3: |
Obtaining Self-Exchange Rate Constants and Equilibrium Constants / 1.3.1: |
Tests of the Cross Relation for Organic HAT Reactions / 1.3.2: |
Solvent Effects on HAT Rate and Equilibrium Constants / 1.3.3: |
A Test Case: Reactions of Bulky Phenoxyl Radicals with TEMPOH / 1.3.4: |
Tests of the Cross Relation using KSE-Corrected Self-Exchange Rate Constants / 1.3.5: |
Predicting HAT Rate Constants for Transition Metal Complexes / 1.4: |
Applying the Cross Relation as a Function of Temperature; the Importance of Using Free Energies / 1.4.1: |
Applying the Cross Relation to Oxidations by [RuIV(O)(bpy)2(py)]2+ / 1.4.2: |
Precursor and Successor Complexes for HAT / 1.4.3: |
Applying the Cross Relation for Transition Metal HAT / 1.4.4: |
Transition Metal Systems that Deviate from the Cross Relation / 1.4.5: |
Conclusions: Implications and Limitations of the Cross Relation for Hydrogen Atom Transfer Reactions / 1.5: |
References |
A Transition-State Perspective of Proton-Coupled Electron Transfers / Luis G. ArnautChapter 2: |
Theory / 2.1: |
Hydrogen Atom Transfers / 2.2.1: |
Proton Transfers in Hydrogen-Bonded Systems / 2.2.2: |
Electron Transfers / 2.2.3: |
Concerted Proton-Electron Transfers / 2.2.4: |
Applications / 2.3: |
HAT in the Benzyl/Toluene Self-Exchange / 2.3.1: |
PCET in the Phenoxyl/Phenol Self-Exchange / 2.3.2: |
CPET in Soybean Lipoxygenase-1 / 2.3.3: |
Conclusions / 2.4: |
Experimental Approaches Towards Proton-Coupled Electron Transfer Reactions in Biological Redox Systems / Sibylle Brenner ; Sam Hay ; Derren J. Heyes ; Nigel S. ScruttonChapter 3: |
Definitions / 3.1: |
Thermodynamics of PCET Reactions / 3.1.2: |
Kinetics of PCET Reactions / 3.1.3: |
Experimental Kinetic Approaches to Analyse PCET Reactions / 3.2: |
Case Studies / 3.3: |
PCET in Nitrite Reductase / 3.3.1: |
Hydride Transfer Reactions in Old Yellow Enzymes / 3.3.2: |
Concluding Remarks / 3.4: |
Metal Ion-Coupled and Proton-Coupled Electron Transfer in Catalytic Reduction of Dioxygen / Shunichi Fukuzumi ; Hiroaki KotaniChapter 4: |
PCET from Electron Donors to O2 / 4.1: |
MCET from Electron Donors to O2 / 4.3: |
MCET from O2•-Mn+ to p-Benzoquinones / 4.4: |
Catalytic Two-Electron Reduction of O2 via MCET and PCET / 4.5: |
Catalytic Four-Electron Reduction of O2 / 4.6: |
Cofacial Dicobalt Porphyrin and Porphyrin-Corrole Dyads / 4.6.1: |
Mononuclear Cu Complexes / 4.6.2: |
A Heterodinuclear Indium-Ruthenium Complex / 4.6.3: |
Mononuclear Mn Complexes / 4.6.4: |
Summary and Conclusions / 4.7: |
Acknowledgements |
Proton-Coupled Electron Transfer in Natural and Artificial Photosynthesis / M. Barroso ; Luis G. Amaut ; Sebastiao J. FormosinhoChapter 5: |
Proton-Coupled Electron Transfer Reactions / 5.1: |
Interfacial PCET / 5.2.1: |
Thermodynamics of Water Splitting and CO2 Reduction / 5.3: |
Natural Photosynthesis / 5.4: |
Structure and Mechanism of Photosystem II / 5.4.1: |
PCET in Photosystem II / 5.4.2: |
Artificial Photosynthesis / 5.5: |
Model Systems for Photosystem II / 5.5.1: |
Water Oxidation Catalysts / 5.5.2: |
Proton and CO2 Reduction / 5.5.3: |
Subject Index / 5.6: |
Application of the Marcus Cross Relation to Hydrogen Atom Transfer/Proton-Coupled Electron Transfer Reactions / Jeffrey J. Warren ; James M. MayerChapter 1: |
Introduction / 1.1: |
An Introduction to Marcus Theory / 1.2: |