The Non-Ancillary Nature of Trimethylsilylamide Substituents in Boranes and Borinium Cations |
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| Authors: | Christopher J. Major Dr. Zheng-Wang Qu Prof. Dr. Stefan Grimme Prof. Dr. Douglas W. Stephan |
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| Affiliation: | 1. Department of Chemistry, University of Toronto, 80 St. George St, Toronto, ON, M5S3H6 Canada;2. Mulliken Center for Theoretical Chemistry, University of Bonn, Beringstr. 4, 53115 Bonn, Germany |
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| Abstract: | The known boranes (R(Me3Si)N)2BF (R=Me3Si 1 , tBu 2 , C6F5 3 , o-tol 4 , Mes 5 , Dipp 6 ) and borinium salts (R(Me3Si)N)2B][B(C6F5)4] (R=Me3Si 7 , tBu 8 ) are prepared and fully characterized. Compound 7 is shown to react with phosphines to generate [R3PSiMe3]+ and [R3PH]+ (R=Me, tBu). Efforts to generate related borinium cations via fluoride abstraction from (R(Me3Si)N)2BF (R=C6F5 3 , o-tol 4 , Mes 5 ) gave complex mixtures suggesting multiple reaction pathways. However for R=Dipp 6 , the species [(μ-F)(SiMe2N(Dipp))2BMe][B(C6F5)4] was isolated as the major product, indicating methyl abstraction from silicon and F/Me exchange on boron. These observations together with state-of-the-art DFT mechanistic studies reveal that the trimethylsilyl-substituents do not behave as ancillary subsitutents but rather act as sources of proton, SiMe3 and methyl groups. |
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| Keywords: | borenium cation boranes borinium cation reaction mechanism silylium cation |
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