Hafta 1
Introduction to Photochemistry and Photophysics
Hafta 2
Elementary Molecular Orbital Theory
Hafta 3
Light Absorption and Nature of the Excited State - Light Absorption - Selection Rules - Symmetry Selection Rules - Spin Selection Rules - The Franck–Condon Principle - Jablonski Diagram - Excited-State Deactivation - Vibrational Relaxation - Radiationless Deactivation - Radiative Deactivation - Radiative Lifetime - Chemical Reactions - Excited States: Physical and Chemical Properties: Lifetime, Energy, Geometry, Small Molecules - Selected Molecules: Oxygen, Naphthalene, Benzophenone, Zinc(II) Tetraphenyl Porphyrin, [Cr(en)3]3+, [Co(NH3)6]3+, [Ru(bpy)3]2+, Semiconductors
Hafta 4
Light Absorption and Nature of the Excited State - Light Absorption - Selection Rules - Symmetry Selection Rules - Spin Selection Rules - The Franck–Condon Principle - Jablonski Diagram - Excited-State Deactivation - Vibrational Relaxation - Radiationless Deactivation - Radiative Deactivation - Radiative Lifetime - Chemical Reactions - Excited States: Physical and Chemical Properties: Lifetime, Energy, Geometry, Small Molecules - Selected Molecules: Oxygen, Naphthalene, Benzophenone, Zinc(II) Tetraphenyl Porphyrin, [Cr(en)3]3+, [Co(NH3)6]3+, [Ru(bpy)3]2+, Semiconductors
Hafta 5
Light Absorption and Nature of the Excited State - Light Absorption - Selection Rules - Symmetry Selection Rules - Spin Selection Rules - The Franck–Condon Principle - Jablonski Diagram - Excited-State Deactivation - Vibrational Relaxation - Radiationless Deactivation - Radiative Deactivation - Radiative Lifetime - Chemical Reactions - Excited States: Physical and Chemical Properties: Lifetime, Energy, Geometry, Small Molecules - Selected Molecules: Oxygen, Naphthalene, Benzophenone, Zinc(II) Tetraphenyl Porphyrin, [Cr(en)3]3+, [Co(NH3)6]3+, [Ru(bpy)3]2+, Semiconductors
Hafta 6
Light Absorption and Nature of the Excited State - Light Absorption - Selection Rules - Symmetry Selection Rules - Spin Selection Rules - The Franck–Condon Principle - Jablonski Diagram - Excited-State Deactivation - Vibrational Relaxation - Radiationless Deactivation - Radiative Deactivation - Radiative Lifetime - Chemical Reactions - Excited States: Physical and Chemical Properties: Lifetime, Energy, Geometry, Small Molecules - Selected Molecules: Oxygen, Naphthalene, Benzophenone, Zinc(II) Tetraphenyl Porphyrin, [Cr(en)3]3+, [Co(NH3)6]3+, [Ru(bpy)3]2+, Semiconductors
Hafta 7
Molecular Organic Photochemistry - Basic Concepts - Carbonyl Compounds - Photochemistry of Other Organic Compounds - Nitrogen Compounds
Hafta 8
Molecular Organic Photochemistry - Basic Concepts - Carbonyl Compounds - Photochemistry of Other Organic Compounds - Nitrogen Compounds
Hafta 9
Photochemistry and Photophysics of Metal Complexes - Photophysical Properties - Relationships between Electrochemistry and Photochemistry - Cobalt (III) Complexes - Copper (I) Complexes - Ru(II) Polypyridine Complexes - Excited-State Redox Potentials - Luminescent Metal Complexes - Polypyridine Metal Complexes - Cyclometallated Complexes - Ruthenium Complexes - Rhodium Complexes - Iridium Complexes - Platinum Complexes
Hafta 10
Photochemistry and Photophysics of Metal Complexes - Photophysical Properties - Relationships between Electrochemistry and Photochemistry - Cobalt (III) Complexes - Copper (I) Complexes - Ru(II) Polypyridine Complexes - Excited-State Redox Potentials - Luminescent Metal Complexes - Polypyridine Metal Complexes - Cyclometallated Complexes - Ruthenium Complexes - Rhodium Complexes - Iridium Complexes - Platinum Complexes
Hafta 11
Photochemistry and Photophysics of Metal Complexes - Photophysical Properties - Relationships between Electrochemistry and Photochemistry - Cobalt (III) Complexes - Copper (I) Complexes - Ru(II) Polypyridine Complexes - Excited-State Redox Potentials - Luminescent Metal Complexes - Polypyridine Metal Complexes - Cyclometallated Complexes - Ruthenium Complexes - Rhodium Complexes - Iridium Complexes - Platinum Complexes
Hafta 12
Photochemistry and Photophysics of Metal Complexes - Photophysical Properties - Relationships between Electrochemistry and Photochemistry - Cobalt (III) Complexes - Copper (I) Complexes - Ru(II) Polypyridine Complexes - Excited-State Redox Potentials - Luminescent Metal Complexes - Polypyridine Metal Complexes - Cyclometallated Complexes - Ruthenium Complexes - Rhodium Complexes - Iridium Complexes - Platinum Complexes
Hafta 13
Conversion of Light into Chemical Energy - Natural Photosynthesis - Light Harvesting: Absorption and Energy Transfer - Photoinduced Electron Transfer Leading to Charge Separation - Bacterial Photosynthesis - Green Plants Photosynthesis: Photosystem II - Efficiency of Photosynthesis - Artificial Photosynthesis - Artificial Antenna - Artificial Reaction Centers - Coupling Artificial Antenna and Reaction Center - Coupling One-Photon Charge Separation with Multielectron Water Splitting - Water Splitting by Semiconductor Photocatalysis
Hafta 14
Conversion of Light into Chemical Energy - Natural Photosynthesis - Light Harvesting: Absorption and Energy Transfer - Photoinduced Electron Transfer Leading to Charge Separation - Bacterial Photosynthesis - Green Plants Photosynthesis: Photosystem II - Efficiency of Photosynthesis - Artificial Photosynthesis - Artificial Antenna - Artificial Reaction Centers - Coupling Artificial Antenna and Reaction Center - Coupling One-Photon Charge Separation with Multielectron Water Splitting - Water Splitting by Semiconductor Photocatalysis