Volman D.H., Neckers D.C., von Buenau G. (eds.). Wiley. 1998. 360
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
Optical Single-Molecule Detection at Room Temperature
Pressure-Tuning Photochemistry of Metal Complexes in Solution
Photo-Induced and Spontaneous Proton Tunneling in Molecular Solids
The EPR Spectroscopic D Parameter of Localized Triplet Diradicals as Probe for Electronic Effects in Benzyl-Type Monoradicals
Photothermal Studies of Photophysical and Photochemical Processes by the Transient Grating Method
Index
Cumulative Index, Volumes 1-24
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
Optical Single-Molecule Detection at Room Temperature
Pressure-Tuning Photochemistry of Metal Complexes in Solution
Photo-Induced and Spontaneous Proton Tunneling in Molecular Solids
The EPR Spectroscopic D Parameter of Localized Triplet Diradicals as Probe for Electronic Effects in Benzyl-Type Monoradicals
Photothermal Studies of Photophysical and Photochemical Processes by the Transient Grating Method
Index
Cumulative Index, Volumes 1-24