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Copper complex, configuration

Reactions of organomagnesium compounds with dialkyl sulfates or alkyl sulfonates often give satisfactory yields of the products of displacement of sulfate or sulfonate. Side-reactions have been observed, but they can often be avoided for example, an excess of the sulfate or sulfonate should be used with Grignard reagents, as some is consumed by nucleophilic attack by halide ion [A]. The dialkyl sulfates are reactive, but hazardous. Toluenesulfonates (tosylates) are less reactive, but their reactions are catalysed by copper complexes the reactions of trifluoromethanesulfonates (triflates) are catalysed by nickel complexes. Reactions of Grignard reagents with secondary tosylates appear to follow an Sn2 mechanism, with inversion of configuration [43],... [Pg.169]

Copper complexes are known in oxidation states ranging from 0 to +4, although the +2 (cupric) and the +1 (cuprous) oxidation states are by far the most common, with the divalent state predominating. Only a relatively small number of Cu complexes have been characterized and the Cu° and oxidation states are extremely rare. A few mixed valence (see Mixed Valence Compounds) polynuclear species have also been isolated examples include a CuVCu species and a Cu /Cu catenane. The coordination numbers and geometries (see Coordination Numbers Geometries) of copper complexes vary with oxidation state. Thus, the majority of the characterized Cu complexes are square planar and diamagnetic, as is common for late transition metals with d electronic configurations. [Pg.947]

The binuclear copper complex 4 is also an effective catalyst for enantioselective cyclo-propanation of simple olefins76. The major tram-isomer is produced by the -enantiomer of 4 with predominant (15) configuration. For these reactions the influence of the menthyl ester chirality is not negligible otherwise the relatively high difference in the ee values when the R-or S-catalyst is used cannot be rationalized. Thus, double stereodifferentiation seems to operate to some extent. [Pg.1038]

Figure 6.20. (a) Acryloyloxazolidinone in bidentate coordination. strain favors the s-cis conformation, (b) Cycloaddition of Ci-symmetric bisoxazoline-magnesium complex [206]. (c) Cycloaddition of C2-symmetric bisoxazoline-copper complex [205]. (d) Rationale for the different topicities of the bisoxazoline complexes, even though both ligands have the same absolute configuration. The dienophile is awn in the plane of the paper, and the favored approach is from the direction of the viewer. [Pg.281]

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See also in sourсe #XX -- [ Pg.385 , Pg.386 ]



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Configuration complexes

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