Experimental and Theoretical Evidence of an SN2-Type Mechanism for Dissociation of B−N Coordination Bonds in 2,6-Bis((dimethylamino)methyl)phenylborane Derivatives1

To distinguish between dissociation of a B−N coordination bond by SN1- and SN2-type mechanisms, two series of 1,3,2-dioxaborolanes (boronates) and BEt2 (borane) complexes carrying a 2,6-bis((dimethylamino)methyl)phenyl group as a third substituent were synthesized by the reaction of the correspondin...

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Veröffentlicht in:	Organometallics 1998-09, Vol.17 (19), p.4155-4163
Hauptverfasser:	Toyota, Shinji, Futawaka, Tadahiro, Asakura, Mitsuhiro, Ikeda, Hiroshi, Ōki, Michinori
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Sprache:	eng ; jpn
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container_end_page	4163
container_issue	19
container_start_page	4155
container_title	Organometallics
container_volume	17
creator	Toyota, Shinji Futawaka, Tadahiro Asakura, Mitsuhiro Ikeda, Hiroshi Ōki, Michinori
description	To distinguish between dissociation of a B−N coordination bond by SN1- and SN2-type mechanisms, two series of 1,3,2-dioxaborolanes (boronates) and BEt2 (borane) complexes carrying a 2,6-bis((dimethylamino)methyl)phenyl group as a third substituent were synthesized by the reaction of the corresponding organolithium compound with an appropriate boron reagent. In the solid state, the boronate complex exhibits a structure in which only one NMe2 group is coordinated to a tetracoordinated boron atom according to the X-ray analysis and the solid-state NMR. In solution there is a rapid exchange between the coordinated and uncoordinated amine ligands. The barriers to B−N dissociation in the boronate and borane complexes are lower by >3.4 and 6.6 kcal/mol than in the corresponding monoamino complexes, respectively, which is due to electronic assistance in an SN2-type mechanism. This observation is supported by ab initio calculations for the system of NH3 and BH3. The dynamic process observed in the boronate complex with 4,4-diphenyl substituents is also discussed.
doi_str_mv	10.1021/om9803974
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In the solid state, the boronate complex exhibits a structure in which only one NMe2 group is coordinated to a tetracoordinated boron atom according to the X-ray analysis and the solid-state NMR. In solution there is a rapid exchange between the coordinated and uncoordinated amine ligands. The barriers to B−N dissociation in the boronate and borane complexes are lower by >3.4 and 6.6 kcal/mol than in the corresponding monoamino complexes, respectively, which is due to electronic assistance in an SN2-type mechanism. This observation is supported by ab initio calculations for the system of NH3 and BH3. 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title	Experimental and Theoretical Evidence of an SN2-Type Mechanism for Dissociation of B−N Coordination Bonds in 2,6-Bis((dimethylamino)methyl)phenylborane Derivatives1
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