Si-E (E = N, O, F) Bonding in a Hexacoordinated Silicon Complex: New Facts from Experimental and Theoretical Charge Density Studies

Nikolaus Kocher; Julian Henn; Boris Gostevskii; Daniel Kost; Inna Kalikhman; Bernd Engels; Dietmar Stalke

doi:10.1021/ja038459r

Si-E (E = N, O, F) Bonding in a Hexacoordinated Silicon Complex: New Facts from Experimental and Theoretical Charge Density Studies

Nikolaus Kocher, Julian Henn, Boris Gostevskii, Daniel Kost, Inna Kalikhman, Bernd Engels, Dietmar Stalke

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

128 Scopus citations

Abstract

The concept of hypervalency in molecules, which hold more than eight valence electrons at the central atom, still is a topic of constant debate. There is general interest in silicon compounds with more than four substituents at the central silicon atom. The dispute, whether this silicon is hypervalent or highly coordinated, is enlightened by the first experimental charge density determination and subsequent topological analysis of three different highly polar Si-E (E = N, O, F) bonds in a hexacoordinated compound. The experiment reveals predominantly ionic bonding and much less covalent contribution than commonly anticipated. For comparison gas-phase ab initio calculations were performed on this compound. The results of the theoretical calculations underline the findings of the experiment.

Original language	English
Pages (from-to)	5563-5568
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	126
Issue number	17
DOIs	https://doi.org/10.1021/ja038459r
State	Published - 5 May 2004

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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abstract = "The concept of hypervalency in molecules, which hold more than eight valence electrons at the central atom, still is a topic of constant debate. There is general interest in silicon compounds with more than four substituents at the central silicon atom. The dispute, whether this silicon is hypervalent or highly coordinated, is enlightened by the first experimental charge density determination and subsequent topological analysis of three different highly polar Si-E (E = N, O, F) bonds in a hexacoordinated compound. The experiment reveals predominantly ionic bonding and much less covalent contribution than commonly anticipated. For comparison gas-phase ab initio calculations were performed on this compound. The results of the theoretical calculations underline the findings of the experiment.",

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AU - Gostevskii, Boris

AU - Kost, Daniel

AU - Kalikhman, Inna

AU - Engels, Bernd

AU - Stalke, Dietmar

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Si-E (E = N, O, F) Bonding in a Hexacoordinated Silicon Complex: New Facts from Experimental and Theoretical Charge Density Studies

Abstract

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