Donor-stabilized silyl cations. 3. Ionic dissociation of hexacoordinate silicon complexes to pentacoordinate siliconium salts driven by ion solvation

Daniel Kost; Vijeyakumar Kingston; Boris Gostevskii; Arkady Ellern; Dietmar Stalke; Bernhard Walfort; Inna Kalikhman

doi:10.1021/om020068i

Donor-stabilized silyl cations. 3. Ionic dissociation of hexacoordinate silicon complexes to pentacoordinate siliconium salts driven by ion solvation

Daniel Kost, Vijeyakumar Kingston, Boris Gostevskii, Arkady Ellern, Dietmar Stalke, Bernhard Walfort, Inna Kalikhman

Department of Chemistry

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

82 Scopus citations

Abstract

Neutral hexacoordinate silicon complexes 1 undergo an equilibrium dissociation to ionic siliconium chlorides 6 at low temperatures in polar solvents: chloroform, dichloromethane, and fluorodichloromethane. The extent of dissociation increases with decreasing temperature, despite the formation of two ions from each molecule. The reaction enthalpies and entropies for the ionizations are negative, and their absolute values increase with increasing solvent polarity, indicating that solvation of the ions drives the dissociation process. The position of the equilibrium is readily controlled by variation of solvent polarity, temperature, replacement of the chloro ligand by better leaving groups (triflate, bromide, or tetrachloroaluminate), and variation of substituents (R) or ligands (X). The results are supported by crystal structures of the siliconium salts: 8a,c,d and 14d.

Original language	English
Pages (from-to)	2293-2305
Number of pages	13
Journal	Organometallics
Volume	21
Issue number	11
DOIs	https://doi.org/10.1021/om020068i
State	Published - 27 May 2002

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Organic Chemistry
Inorganic Chemistry

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title = "Donor-stabilized silyl cations. 3. Ionic dissociation of hexacoordinate silicon complexes to pentacoordinate siliconium salts driven by ion solvation",

abstract = "Neutral hexacoordinate silicon complexes 1 undergo an equilibrium dissociation to ionic siliconium chlorides 6 at low temperatures in polar solvents: chloroform, dichloromethane, and fluorodichloromethane. The extent of dissociation increases with decreasing temperature, despite the formation of two ions from each molecule. The reaction enthalpies and entropies for the ionizations are negative, and their absolute values increase with increasing solvent polarity, indicating that solvation of the ions drives the dissociation process. The position of the equilibrium is readily controlled by variation of solvent polarity, temperature, replacement of the chloro ligand by better leaving groups (triflate, bromide, or tetrachloroaluminate), and variation of substituents (R) or ligands (X). The results are supported by crystal structures of the siliconium salts: 8a,c,d and 14d.",

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T1 - Donor-stabilized silyl cations. 3. Ionic dissociation of hexacoordinate silicon complexes to pentacoordinate siliconium salts driven by ion solvation

AU - Kost, Daniel

AU - Kingston, Vijeyakumar

AU - Gostevskii, Boris

AU - Ellern, Arkady

AU - Stalke, Dietmar

AU - Walfort, Bernhard

AU - Kalikhman, Inna

PY - 2002/5/27

Y1 - 2002/5/27

N2 - Neutral hexacoordinate silicon complexes 1 undergo an equilibrium dissociation to ionic siliconium chlorides 6 at low temperatures in polar solvents: chloroform, dichloromethane, and fluorodichloromethane. The extent of dissociation increases with decreasing temperature, despite the formation of two ions from each molecule. The reaction enthalpies and entropies for the ionizations are negative, and their absolute values increase with increasing solvent polarity, indicating that solvation of the ions drives the dissociation process. The position of the equilibrium is readily controlled by variation of solvent polarity, temperature, replacement of the chloro ligand by better leaving groups (triflate, bromide, or tetrachloroaluminate), and variation of substituents (R) or ligands (X). The results are supported by crystal structures of the siliconium salts: 8a,c,d and 14d.

AB - Neutral hexacoordinate silicon complexes 1 undergo an equilibrium dissociation to ionic siliconium chlorides 6 at low temperatures in polar solvents: chloroform, dichloromethane, and fluorodichloromethane. The extent of dissociation increases with decreasing temperature, despite the formation of two ions from each molecule. The reaction enthalpies and entropies for the ionizations are negative, and their absolute values increase with increasing solvent polarity, indicating that solvation of the ions drives the dissociation process. The position of the equilibrium is readily controlled by variation of solvent polarity, temperature, replacement of the chloro ligand by better leaving groups (triflate, bromide, or tetrachloroaluminate), and variation of substituents (R) or ligands (X). The results are supported by crystal structures of the siliconium salts: 8a,c,d and 14d.

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Donor-stabilized silyl cations. 3. Ionic dissociation of hexacoordinate silicon complexes to pentacoordinate siliconium salts driven by ion solvation

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