Abstract

The reaction of [Mo{(CH2)3Br}(CO)3(η-C5H5)] with Li(BEt3H) leads to the spectroscopically characterised [[graphic omitted]}(CO)2(η-C5H5)]. This compound is also formed in the reaction of the carbene complex trans-[MoI{[graphic omitted]}(CO)2(η-C5H5)] with Li(BEt3H). In both reactions small quantities of the known η3-ally[Mo(CO)2(η3-C4H7)(η-C5H5)] are also isolated. The methylcyclopentadienyl analogues are available through reaction of trans-[MoI{[graphic omitted]}(CO)2(η-C5H4Me)] with Li(BEt3H) and the resulting molecule [[graphic omitted]}(CO)2(η-C5H4Me)] is the subject of an X-ray crystal structure determination. It crystallises as irregular red lumps, a= 8.416(9), b= 11.541(12), c= 7.063(3)Å, α= 105.23(3), β= 105.71(3), and γ= 104.938(12)°; R converged to 0.0299 for 1 805 independent reflections for which I > 3.0 σ(I). The bonding of the C4H7O ring is unusual and formulated as a metal–alkyl interaction adjacent to a O → Mo bond. The molybdenum–oxygen bond is labile, thus [[graphic omitted]}(CO)2(η-C5H5)] reacts readily with PPh3 to give the phosphine complex trans-[Mo{[graphic omitted]}(CO)2(PPh3)(η-C5H5)] in good yield. Formation of [[graphic omitted]}(CO)2(η-C5H5)] from the alkyl complex proceeds by the initial formation of a metal formyl complex [Mo(CHO){(CH2)3Br}(CO)2(η-C5H5)]– which rearranges through two further intermediates to the ultimate product. Formation of [[graphic omitted]}(CO)2(η-C5H4R)] from the appropriate carbene complex is apparently by direct attack of the hydride reagent at the carbene atom. Reaction of the alkyl trans-[Mo{(CH2)3Br}(CO)2(PPh3)(η-C5H5)] with Li(BEt3H) leads only to the η3-allyl [Mo(CO)(PPh3)(η3-C4H7)(η-C5H5)].

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