Synthesis and characterization of a neutral tricoordinate organoboron isoelectronic with amines

Rei Kinjo; Bruno Donnadieu; Mehmet Ali Celik; Gernot Frenking; Guy Bertrand

doi:10.1126/science.1207573

Synthesis and characterization of a neutral tricoordinate organoboron isoelectronic with amines

Rei Kinjo, Bruno Donnadieu, Mehmet Ali Celik, Gernot Frenking, Guy Bertrand^*

^*Corresponding author for this work

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

458 Citations (Scopus)

Abstract

Amines and boranes are the archetypical Lewis bases and acids, respectively. The former can readily undergo one-electron oxidation to give radical cations, whereas the latter are easily reduced to afford radical anions. Here, we report the synthesis of a neutral tricoordinate boron derivative, which acts as a Lewis base and undergoes one-electron oxidation into the corresponding radical cation. These compounds can be regarded as the parent borylene (H-B:) and borinylium (H-B ^+.), respectively, stabilized by two cyclic (alkyl)(amino)carbenes. Ab initio calculations show that the highest occupied molecular orbital of the borane as well as the singly occupied molecular orbital of the radical cation are essentially a pair and a single electron, respectively, in the p(π) orbital of boron.

Original language	English
Pages (from-to)	610-613
Number of pages	4
Journal	Science
Volume	333
Issue number	6042
DOIs	https://doi.org/10.1126/science.1207573
Publication status	Published - Jul 29 2011
Externally published	Yes

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title = "Synthesis and characterization of a neutral tricoordinate organoboron isoelectronic with amines",

abstract = "Amines and boranes are the archetypical Lewis bases and acids, respectively. The former can readily undergo one-electron oxidation to give radical cations, whereas the latter are easily reduced to afford radical anions. Here, we report the synthesis of a neutral tricoordinate boron derivative, which acts as a Lewis base and undergoes one-electron oxidation into the corresponding radical cation. These compounds can be regarded as the parent borylene (H-B:) and borinylium (H-B +.), respectively, stabilized by two cyclic (alkyl)(amino)carbenes. Ab initio calculations show that the highest occupied molecular orbital of the borane as well as the singly occupied molecular orbital of the radical cation are essentially a pair and a single electron, respectively, in the p(π) orbital of boron.",

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TY - JOUR

T1 - Synthesis and characterization of a neutral tricoordinate organoboron isoelectronic with amines

AU - Kinjo, Rei

AU - Donnadieu, Bruno

AU - Celik, Mehmet Ali

AU - Frenking, Gernot

AU - Bertrand, Guy

PY - 2011/7/29

Y1 - 2011/7/29

N2 - Amines and boranes are the archetypical Lewis bases and acids, respectively. The former can readily undergo one-electron oxidation to give radical cations, whereas the latter are easily reduced to afford radical anions. Here, we report the synthesis of a neutral tricoordinate boron derivative, which acts as a Lewis base and undergoes one-electron oxidation into the corresponding radical cation. These compounds can be regarded as the parent borylene (H-B:) and borinylium (H-B +.), respectively, stabilized by two cyclic (alkyl)(amino)carbenes. Ab initio calculations show that the highest occupied molecular orbital of the borane as well as the singly occupied molecular orbital of the radical cation are essentially a pair and a single electron, respectively, in the p(π) orbital of boron.

AB - Amines and boranes are the archetypical Lewis bases and acids, respectively. The former can readily undergo one-electron oxidation to give radical cations, whereas the latter are easily reduced to afford radical anions. Here, we report the synthesis of a neutral tricoordinate boron derivative, which acts as a Lewis base and undergoes one-electron oxidation into the corresponding radical cation. These compounds can be regarded as the parent borylene (H-B:) and borinylium (H-B +.), respectively, stabilized by two cyclic (alkyl)(amino)carbenes. Ab initio calculations show that the highest occupied molecular orbital of the borane as well as the singly occupied molecular orbital of the radical cation are essentially a pair and a single electron, respectively, in the p(π) orbital of boron.

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Synthesis and characterization of a neutral tricoordinate organoboron isoelectronic with amines

Abstract

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