Structural determination of a transient isomer of CH2I2 by picosecond x-ray diffraction
Journal article, 2005
Ultrafast time-resolved spectroscopic studies of complex chemical reactions in solution are frequently hindered by difficulties in recovering accurate structural models for transient photochemical species. Time-resolved x-ray and electron diffraction have recently emerged as techniques for probing the structural dynamics of short lived photointermediates. Here we determine the structure of a transient isomer of photoexcited CH2I2 in solution and observe the downstream reactions of the initial photoproducts. Our results illustrate how geminate recombination proceeds via the formation of a transient covalent bond onto the iodine atom remaining with the parent molecule. Further intramolecular rearrangements are thus required for the CH2I-I isomer to return to CH2I2. The generation of I-3(-) from those iodine radicals escaping the solvent cage is also followed with time.
RESONANCE RAMAN OBSERVATION
ALKYL-HALIDES
PHOTOCHEMISTRY
SOLUTION-PHASE
PHOTODISSOCIATION DYNAMICS
ORGANIC TRACES
PHOTOPRODUCT
CYCLOPROPANATION
ULTRAVIOLET PHOTOLYSIS
DIIODOMETHANE
Author
J Davidsson
Jens Aage Poulsen
University of Gothenburg
Marco Cammarata
Panos Georgiou
Remco Wouts
Gergely Katona
Frida Jacobson
Chalmers, Chemical and Biological Engineering, Molecular Biotechnology
Anton Plech
Michael Wulff
Gunnar Nyman
University of Gothenburg
Richard Neutze
Chalmers, Chemical and Biological Engineering, Molecular Biotechnology
University of Gothenburg
Physical Review Letters
Vol. 94 24 4-
Subject Categories
Physical Chemistry
DOI
10.1103/PhysRevLett.94.245503