MULTIPHOTON DISSOCIATION AND IONIZATION OF Ni(CO), AND VARIOUS COBALT COMPLEXES IN A JET-COOLED MOLECULAR BEAM: COMPARISON WITH MPI OF WF.
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Date
1990
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Ohio State University
Abstract
Mutiphoton ionization spectroscopy of Ni(CO), and various cobalt complexes have been investigated. Their MPI spectra exhibited relatively sharp and narrow peaks, namely atomic lines, in the 410-510nm region. Two-photon resonance ionization spectra of metal atoms have been observed in Ni(CO), and cobalt complexes. The multiphoton process for dissociation and ionization in these complexes will be discussed. However, MPI spectra of WF, have exhibited broad bands over the 450-500nm region. The MPI spectra of WF, are quite different than those of Ni(CO), and cobalt complexes: no atomic bands have been observed. The spectra can be instead assigned to three-photon molecular resonance ionization of WF,. All the MPI spectra observed have been assigned and predicted pathways of the MPD/MPI mechanism have been postulated based on energertic thresholds and a power study. Comparison between molecular MPI and atomic MPI in the supersonic jet expansion will be discussed.
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Author Institution: Department of Chemistry, University of Illinois at Chicago