Copper II Homoenolate

Reaction between a siloxycyclopropane and Cu(BF3)2 in ether gives a product due to symmetrical coupling of two homoenolate moieties (Eq. 53, Table 12) [51]. This is particularly noteworthy as a simple route to 1,6-ketones superior to classical approaches such as the Kolbe electrolysis [52], Several lines of evidence suggest the intermediacy of Cu(II) homoenolates. AgBF3 and CuF2 effect the same reaction albeit with lower yields. The reactions with cupric halides give 

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Reaction of a silyloxycyclopropane and Cu(Bp4)2 in ether results in symmetrical coupling of two homoenolate moieties (Scheme 10). This reaction provides a convenient route to 1,6-diketones. Intermediacy of a copper(II) homoenolate has been suggested. AgBp4 and Cup2 effect the same reaction,... 

Zinc homoenolate reacts with allylic halides and diene monoepoxides under copper catalysis [29]. Treatment of the zinc nomoenolate with a catalytic amount of Cu(II) in a polar solvent (e.g. hexamethylphosphoramide, HMPA, N,N-dimethylacetamide, DMA) generates a copper species which undergoes clean Sn2 allylation reactions Eq. (40). Polar solvents not only accelerate the reaction but greatly improve the SN2 selectivity. A variety of allylating reagents can be employed in this reaction (Table 9). The SN2 /SN2 ratio is particularly high (close to 100%) when the alkylated carbon bears no substituents. The reaction of... 

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