Synthesis of a Dimeric Base‐Stabilized Cobaltosilylene Complex for Catalytic C−H Bond Functionalization and C−C Bond Formation

The synthesis of a dimeric base‐stabilized cobaltosilylene complex and its catalytic reactions are described. Treatment of the amidinato silicon(I) dimer [LSi:]2 (1; L=PhC(NtBu)2) with CoBr2 in toluene for 10 days afforded the dimeric amidinato cobaltosilylene [(LSi)μ‐{CoBr(LSiBr)}]2 (2), which is s...

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Published in:Chemistry : a European journal 2018-09, Vol.24 (54), p.14329-14334
Main Authors: Khoo, Sabrina, Cao, Jiajia, Yang, Ming‐Chung, Shan, Yu‐Liang, Su, Ming‐Der, So, Cheuk‐Wai
Format: Article
Language:English
Subjects:
Alkynes
Aromatic compounds
carbene homologue
Catalysis
Chemical reactions
Chemical synthesis
Chemistry
cobalt
Coupling (molecular)
Crystal structure
Crystallography
C−C bond functionalization
C−H activation
Dimers
Electronic structure
Hydrogen bonds
Intermediates
Magnetic moments
Phosphine
Reagents
silicon
Toluene
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creator Khoo, Sabrina
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description The synthesis of a dimeric base‐stabilized cobaltosilylene complex and its catalytic reactions are described. Treatment of the amidinato silicon(I) dimer [LSi:]2 (1; L=PhC(NtBu)2) with CoBr2 in toluene for 10 days afforded the dimeric amidinato cobaltosilylene [(LSi)μ‐{CoBr(LSiBr)}]2 (2), which is speculated to proceed via “LSiCoBr” and “LSiBr” intermediates in the reaction. Compound 2 is paramagnetic, with an effective magnetic moment of 2.8 μB. Its electronic structure was elucidated by single‐crystal X‐ray crystallography and DFT studies. It was capable of catalyzing C−H bond functionalization, in which a combination of 2, phosphine and MeMgI can regio‐ and stereoselectively promoted the addition of the C≡C triple bonds in alkynes to the ortho‐C−H position in arylpyridines. In addition, compound 2 catalyzed Kumada‐type coupling reactions between aryl chlorides and the Grignard reagent 2‐mesitylmagnesium bromide. Cobalt causes bonding! A combination of the dimeric amidinato cobaltosilylene, phosphine, and MeMgI can regio‐ and stereoselectively catalyze the addition the C≡C triple bonds of alkynes to the ortho‐C−H position in arylpyridines.
doi_str_mv 10.1002/chem.201803410
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Treatment of the amidinato silicon(I) dimer [LSi:]2 (1; L=PhC(NtBu)2) with CoBr2 in toluene for 10 days afforded the dimeric amidinato cobaltosilylene [(LSi)μ‐{CoBr(LSiBr)}]2 (2), which is speculated to proceed via “LSiCoBr” and “LSiBr” intermediates in the reaction. Compound 2 is paramagnetic, with an effective magnetic moment of 2.8 μB. Its electronic structure was elucidated by single‐crystal X‐ray crystallography and DFT studies. It was capable of catalyzing C−H bond functionalization, in which a combination of 2, phosphine and MeMgI can regio‐ and stereoselectively promoted the addition of the C≡C triple bonds in alkynes to the ortho‐C−H position in arylpyridines. In addition, compound 2 catalyzed Kumada‐type coupling reactions between aryl chlorides and the Grignard reagent 2‐mesitylmagnesium bromide. Cobalt causes bonding! 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Treatment of the amidinato silicon(I) dimer [LSi:]2 (1; L=PhC(NtBu)2) with CoBr2 in toluene for 10 days afforded the dimeric amidinato cobaltosilylene [(LSi)μ‐{CoBr(LSiBr)}]2 (2), which is speculated to proceed via “LSiCoBr” and “LSiBr” intermediates in the reaction. Compound 2 is paramagnetic, with an effective magnetic moment of 2.8 μB. Its electronic structure was elucidated by single‐crystal X‐ray crystallography and DFT studies. It was capable of catalyzing C−H bond functionalization, in which a combination of 2, phosphine and MeMgI can regio‐ and stereoselectively promoted the addition of the C≡C triple bonds in alkynes to the ortho‐C−H position in arylpyridines. In addition, compound 2 catalyzed Kumada‐type coupling reactions between aryl chlorides and the Grignard reagent 2‐mesitylmagnesium bromide. Cobalt causes bonding! 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subjects Alkynes
Aromatic compounds
carbene homologue
Catalysis
Chemical reactions
Chemical synthesis
Chemistry
cobalt
Coupling (molecular)
Crystal structure
Crystallography
C−C bond functionalization
C−H activation
Dimers
Electronic structure
Hydrogen bonds
Intermediates
Magnetic moments
Phosphine
Reagents
silicon
Toluene
title Synthesis of a Dimeric Base‐Stabilized Cobaltosilylene Complex for Catalytic C−H Bond Functionalization and C−C Bond Formation
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