Abstract
Electron impact ionisation mass spectrometry has been used to study [Cr(CO) 3(arene)], arene=C 6H 6, C 6H 4Me 2-1,4, C 6H 2Me 4-1,2,4,5 and C 6Me 6. Successive loss of CO ligands results in the production of electron-deficient complexes [Cr(CO) 3− x (C 6H 6)] + (where x=0 to 3). Analysis of these species using approximate density functional theory indicates that the loss of CO ligands stabilises high-spin states, the effect being more marked in the cationic species than in their neutral counterparts. The high-spin states also tend to have more symmetric structures than their low-spin counterparts. The calculated value of the second CO dissociation energy is lower than either the first or third, consistent with gas-phase data obtained by electron impact ionisation mass spectrometry, which consistently show more intense peaks for the [Cr(CO)(C 6H 6)] + than for [Cr(CO) 2(C 6H 6)] +. The loss of the second CO ligand results in a transition from a doublet to a sextet ground state, and the resultant substantial structural rearrangements may be responsible for the anomalously low dissociation energy.
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