Assignment of photoelectron spectra of intramolecular silicon complexes: 1-vinyl- and 1-phenylsilatranes

The problematic experimental photoelectron spectra of silatranes XSi[OCH CH ] N (X = vinyl and Ph) were theoretically studied. The ab initio electron propagator theory, many-body methods, and model vibrational Hamiltonian were employed to establish the nature of bands in the energetically lowest par...

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Bibliographic Details
Published in:Physical chemistry chemical physics : PCCP 2018-11, Vol.20 (41), p.26210-26220
Main Authors: Belogolova, Elena F, Doronina, Evgeniya P, Sidorkin, Valery F
Format: Article
Language:English
Subjects:
Coupling (molecular)
Ionization
Nitrogen
Orbitals
Silicon
Tables
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Summary:The problematic experimental photoelectron spectra of silatranes XSi[OCH CH ] N (X = vinyl and Ph) were theoretically studied. The ab initio electron propagator theory, many-body methods, and model vibrational Hamiltonian were employed to establish the nature of bands in the energetically lowest part of the photoelectron spectrum of these intramolecular silicon complexes. The first vertical ionization energy corresponds to a nitrogen atom lone pair, n , in 1-vinylsilatrane, and the essentially doubly degenerate π-orbitals π and π ' of the aromatic ring in 1-phenylsilatrane. Peaks at 9.6 and 9.9 eV in the spectra of both compounds, previously associated with the removal of an electron from the lone pair level of the equatorial oxygens, should actually be assigned to the bonding orbital HV of their 3c-4e axial CSi←N moiety. Taking silatranes with X = H, Me, OEt, F, vinyl, and Ph as examples, it was found that the length of the dative Si←N contact and the ionization energy of HV (formally n ) were in a good linear relationship. Regardless of the nature of the X substituent, this relationship could be used for the identification of orbitals that participate in the formation of the coordination Si←N bond in the wide series of XSi[OCH CH ] N and their structural analogs.
ISSN:1463-9076
1463-9084
DOI:10.1039/c8cp04582h