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DOI: 10.1039/A903492G (Paper) Reference Section for: J. Chem. Soc., Dalton Trans., 1999, 2551-2556

Unexpected alkyl-substituent exchange during the formation of a cationic bis(zirconocene) complex that contains a planar four-co-ordinate carbon atom

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Jörg Pflug, Roland Fröhlich and Gerhard Erker

Abstract

Treatment of the alkyl Group 4 metallocene cation reagent [ZrCp2{CH2Si(CH3)3}(THF)]+[BPh4] 2b with bis(propynyl)zirconocene 1a yielded the cationic dimetallic complex [(ZrCp2)2(µ-η1∶η2-CH3CCCH3){µ-κ2-C[triple bond, length half m-dash]CCH2Si(CH3)3}]+ 3d with BPh4 anion. Complex 3d was characterized spectroscopically and by a crystal structure analysis. It contains a planar four-co-ordinate carbon atom, which is stabilized by the interaction with both Group 4 metal centres. Finding the CH2Si(CH3)3 substituent, that originates from the alkylzirconocene reagent, attached at the µ-acetylide ligand in the final product is unusual. A reversible alkynyl carbometallation sequence is proposed to account for the observed selective formation of 3d. Complex 3d reacted with alkyl isocyanides RN[triple bond, length half m-dash]C (R = CMe2CH2CMe3, CMe3, or cyclohexyl) by replacement of the µ-η1∶η2-CH3CCCH3 ligand to form the µ-isocyanide complexes [(ZrCp2)2(µ-η1-C∶η2-C,N-RNC){µ-κ2-C[triple bond, length half m-dash]CCH2Si(CH3)2}]+ (with BPh4 anion) of which one was characterized by a crystal structure analysis.

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