Volman D.H., Hammond G.S., Gollnick K. (eds.). Wiley. 1990. 392
p.
With the increased sophistication in experiment and interpretation since that time, photochemists have made substantial progress in achieving the fundamental objective of photochemistry: elucidation of the detailed history of a molecule that absorbs radiation. The scope of this objective is so broad and the systems to be studied are so many that there is little danger of exhusting the subject. We hope that this series will reflect the frontiers of photochemistry as they develop in the future.
Contents
Ultrafast Photochemical Intramolecular Charge Transfer and Excited State Solvation
Atmospheric Reactions Involving Hydrocarbons: FTIR Studies
Excited State Reactivity and Molecular Topology Relationship in Chromophorically Substituted Anthracenes
Photophysics and Photochemistry of Phytochrome
Photochemical Mechanism in Single Crystals: FTIR Studies of Diacyl Peroxides
Index
Cumulative Index, Volumes 1-15
With the increased sophistication in experiment and interpretation since that time, photochemists have made substantial progress in achieving the fundamental objective of photochemistry: elucidation of the detailed history of a molecule that absorbs radiation. The scope of this objective is so broad and the systems to be studied are so many that there is little danger of exhusting the subject. We hope that this series will reflect the frontiers of photochemistry as they develop in the future.
Contents
Ultrafast Photochemical Intramolecular Charge Transfer and Excited State Solvation
Atmospheric Reactions Involving Hydrocarbons: FTIR Studies
Excited State Reactivity and Molecular Topology Relationship in Chromophorically Substituted Anthracenes
Photophysics and Photochemistry of Phytochrome
Photochemical Mechanism in Single Crystals: FTIR Studies of Diacyl Peroxides
Index
Cumulative Index, Volumes 1-15