- Dehydrogenative Build-up Reactions to Silyl-Substituted Alkali Metal Germanides, Stannides, and Phosphides; Molecular Structure of Neopentasilane
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The build-up reaction between monosilane and dispersed sodium or potassium in diethyleneglycol dimethyl ether leads to alkali metal silylsilanides of the composition (Na/K)SiH3-n(SiH3)n (n = 0-3) (1, 1a-c; 2, 2a-c).By subsequent reactions with silyl nonafluorobutanesulfonate, C4F9SO3SiH3, benzenesulfonic acid, PhSO3H, and methyl p-toluenesulfonate the corresponding silanes SiH4-n(SiH3)n (n = 0-4) (3, 3a-d) and methylsilanes CH3SiH3-n(SiH3)n (n = 0-3) (4a-d) were obtained in good yield.The molecular structure of neopentasilane (3d) has been determined by electron diffraction analysis.Treatment of group IV and V hydrides GeH4, PH3, and SnH4 with mixtures of sodium or potassium silylsilanides (1, 1a-c; 2, 2a-c) leads to silyl-substituted sodium or potassium germanides (Na/K)GeH3-n(SiH3)n (n = 1-3) (5a-c, 6a-c), phosphides KPH2-n(SiH3)n (n = 1-2) (7a-b), and stannides NaSnH3-n(SiH3)n (n = 1-3) (8, 8a-c). - Key Words: Alkali metal silylsilanides / Alkali metal silylgermanides / Sodium silylstannides / Potassium silylphosphides / Neopentasilane / Electron diffraction
- Lobreyer, Thomas,Sundermeyer, Wolfgang,Oberhammer, Heinz
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p. 2111 - 2116
(2007/10/02)
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