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9. Energy Transfer
• 9.1 An Energy Surface Description of Electronic Energy Transfer and Energy Degradation
• 9.2 The "Trivial" or Radiative Mechanism for Electronic Energy Transfer: The Spectral Overlap Integral
• 9.3 Theory of Radiationless Energy Transfer: A General Formulation
• 9.4 Visualization of Energy Transfer by Coulombic Interactions: A Transmitter-Antenna Mechanism
• 9.5 Energy Transfer by Electron Exchange: An Overlap or Collision Mechanism
• 9.6 The Role of Energetics in Energy Transfer Mechanisms
• 9.7 The Role of Molecular Diffusion in Energy Transfer Processes in Fluid Solution: "Diffusion Controlled" Quenching
• 9.8 Distance-Time Relationships for Diffusion
• 9.9 Energy Transfer in the Absence of Diffusion: The Perrin Formulation
• 9.10 Comparison of the Theoretical Distance Dependencies of Energy Transfer Rates and Efficiencies
• 9.11 Experimental Examples of Singlet-Singlet Energy Transfer
• 9.12 Triplet-Triplet Energy Transfer
• 9.13 Triplet-Singlet Energy Transfer in Fluid Solution
• 9.14 Singlet-Triplet Energy Transfer
• 9.15 Excitation Transfer between Conjugated Chromophores
• 9.16 "Multiphoton" Energy Transfer Processes; Triplet-Triplet Annihilation; Delayed Photoluminescence
• 9.17 Energy Transfer from Upper Excited States
• 9.18 Nonvertical Energy Transfer
• 9.19 Reversible Energy Transfer
• 9.20 Photosensitization and Quenching in Organic Photochemistry
• 9.21 Quenching by Molecular Oxygen
• 9.22 Energy Hopping or Energy Migration

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