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" Fundamentals of photoinduced electron transfer / "
by George J. Kavarnos
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BL
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| Record Number
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698351
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b520540
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| Main Entry
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Kavarnos, George J
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| Title & Author
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Fundamentals of photoinduced electron transfer /\ by George J. Kavarnos
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| Publication Statement
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New York, NY :: VCH Publishers,, [1993]
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, ©1993
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| Page. NO
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viii, 359 pages :: illustrations ;; 25 cm
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| ISBN
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0895737515 (acid-free paper)
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| Bibliographies/Indexes
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Includes bibliographical references and index
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| Contents
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Ch. 1. Introductory Concepts. 1.1. Scope of Photoinduced Electron Transfer. 1.2. Review of Photochemical Principles and Definitions. 1.3. An Overview of Photochemical and Photophysical Processes. 1.4. General Features of Quenching by Electron Transfer. 1.5. Quantum Yields, Efficiencies, and Lifetimes. 1.6. Energetics of Photoinduced Electron Transfer. 1.7. Photophysical and Electrochemical Properties of Electron Donors and Acceptors. 1.8. Energy Transfer versus Electron Transfer -- Ch. 2. Properties of Charge-Transfer Intermediates in Photoinduced Electron Transfer. 2.1. The Nature of Charge-Transfer Intermediates. 2.2. The Energetics of Exciplex and Ion-Pair Formation. 2.3. Flash Spectroscopy. 2.4. Photoconductivity. 2.5. Pulse Radiolysis. 2.6. Electron and Nuclear Spin -- Ch. 3. Electron-Transfer Photochemistry. 3.1. The Pathways of Photoinduced Electron-Transfer Reactions. 3.2. Examples -- Ch. 4. Intramolecular Photoinduced Electron Transfer. 4.1. Introduction. 4.2. Through-Space and Through-Bond Coupling. 4.3. Photoinduced Electron Transfer in Bridged Metal-Ligand Systems. 4.4. Photoinduced Electron Transfer in Flexible Organic Systems. 4.5. Photoinduced Electron Transfer in Rigid Systems. 4.6. Models for Photosynthesis: Photoinduced Electron Transfer in Porphyrin-Electron Acceptor Pairs. 4.7. Supramolecular Photoinduced Electron Transfer. 4.8. Photoinduced Electron Transfer in Molecular Electronic Devices -- Ch. 5. Photoinduced Electron Transfer in Organized Assemblies and the Solid State. 5.1. Photoinduced Electron Transfer in Organized Assemblies. 5.2. Photoinduced Electron Transfer on Semiconductor Surfaces. 5.3. The Photocleavage of Water. 5.4. Photoinduced Electron Transfer in Imaging Applications -- Ch. 6. Theories of Photoinduced Electron Transfer. 6.1. Diffusion-Controlled and Electron-Transfer Rate Constants. 6.2. Classical Theories of Electron Transfer. 6.3. The Inverted Region. 6.4. Dynamic Solvent Effects. 6.5. Quantum Mechanical Theories. 6.6. Applications of Classical and Quantum Mechanical Theories of Biological Photosynthesis
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| Subject
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Photochemistry
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| Dewey Classification
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541.3/5
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| LC Classification
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QD708.2.K38 1993
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