Aromatic Carbon–Carbon Bond Cleavage Using Tungsten Complexes. A DFT Computational Study

The mechanism of aromatic C–C bond cleavage in quinoxaline (QoxH) catalyzed by the tungsten complexes W(PMe3)4(η2-CH2PMe2)H has been theoretically investigated at the DFT level. The mononuclear species (η2(N,C)-Qox)W(PMe3)4H (experimentally isolated and characterized) is directly involved in the for...

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Published in:Organometallics 2011-09, Vol.30 (18), p.4924-4934
Main Authors: Miscione, Gian Pietro, Carvajal, Maria Angels, Bottoni, Andrea
Format: Article
Language:English
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Summary:The mechanism of aromatic C–C bond cleavage in quinoxaline (QoxH) catalyzed by the tungsten complexes W(PMe3)4(η2-CH2PMe2)H has been theoretically investigated at the DFT level. The mononuclear species (η2(N,C)-Qox)W(PMe3)4H (experimentally isolated and characterized) is directly involved in the formation of the final product [κ2(C 2)-C6H4(NC)2]W(PMe3)4, where the aromatic C–C bond of quinoxaline has been broken. The mechanism requires a double insertion of the metal into two quinoxaline C–H bonds, thus affording the “strained” benzyne-type species η2(C 2)-C6H4(NCCN)W(PMe3)4H2. After expulsion of H2 the η2(C 2) complex leads to the [κ2(C 2)-C6H4(NC)2]W(PMe3)4 product, thus relieving the structural strain of the small WCC cycle in η2(C 2). Also, the theoretical investigation shows the existence of a stable (η4(C 2 N 2)-QoxH)W(PMe3)3H2 complex (an unprecedented example of η4 coordination), in agreement with its experimental observation and characterization by X-ray diffraction.
ISSN:0276-7333
1520-6041
DOI:10.1021/om2005029