
Journal of Physical Chemistry p. 3668 - 3674 (1990)
Update date:2022-08-16
Topics:
Stanley, R. J.
Cook, M.
Castleman, A. W.
Unimolecular dissociation rates of metastable molecular ions formed at the laser focus of a time-of-flight mass spectrometer (TOFMS) have been determined by measuring the relative concentrations of parent metastable ions and the daugther fragment ions as a function of their retained kinetic energies upon dissociation.This is accomplished by the use of a simple one-stage ion mirror/energy analyzer.For a given reflection potential on the ion mirror, only those ions with a kinetic energy equal to or less than the reflection potential are detected.In this way, the relative concentrations of the parent and daughter ions as a function of their position of dissociation in the time-of-flight (TOF) lens can be measured, and consequently the dissociation lifetime can be derived.This technique has been applied to measuring the unimolecular dissociation rate of chlorobenzene ion (C6H5Cl+) in the three-photon energy range of 13.64-13.92 eV through resonance-enhanced two-photon state-selected ionization of chlorobenzene in a supersonic molecular jet.The method demonstrates a minimum dynamic range of 105 to 2*107 s-1 and is in good agreement with previous work.The data suggest that rotational temperature plays a role in the unimolecular dissociation lifetime of the metastable ions.
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