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Comparison of electron impact and chemical ionization mass spectra of some arenetricarbonylchromium complexes
Authors:William J.A. Vandenheuvel  Robert W. Walker  Steven B. Nagelberg  Bennett R. Willeford
Affiliation:Merck Sharp and Dohme, Research Laboratories, Rahway, N.J. 07065 U.S.A.;Bucknell University, Department of Chemistry, Lewisburg, P.A. 17837 U.S.A.
Abstract:The mass spectrometric behavior of a) the tricarbonylchromium complexes of a series of aromatic hydrocarbons, b) the dimethyldiphenyl compounds of the Group IV elements (i.e., diphenylpropane, dimethyldiphenylsilane, etc.) and c) the mono- and bis-tricarbonylchromium complexes of these ligands under electron impact and chemical ionization conditions are reported. The MH+ ion is base peak for all of the simple arenetricarbonylchromium complexes using chemical ionization, whereas [M — 3 CO]+ or 52Cr+ dominate the spectra with electron impact ionization. The chemical ionization spectra of the series of Group IV element ligands do not exhibit signals in the molecular ion region, the base peak being [M — Ph]+. [M — CH3]+ is the electron impact base peak for each of the ligands except the lead-containing compound, for which the base peak is 208Pb+. The mono-tricarbonylchromium complexes yield chemical ionization molecular ion clusters, but their base peaks arise via fragmentation of the Group IV element—aromatic ring bonds. Electron impact ionization spectra of the mono complexes are characterized by losses of CO and the production of Cr+ ions, neither of which occurs with chemical ionization. For the series of bis-tricarbonylchromium complexes, an MH+ ion is prominent only in the chemical ionization spectrum of the diphenylpropane complex. The electron impact induced spectra of the bis-tricarbonylchromium complexes are similar to those of the mono-complexes in that loss of CO is a prominent feature.
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