Crossed enolate reactions using

Conjugate Addition to a,j8-Unsaturated Carbonyl Compounds Crossed Enolate Reactions Using LDA... 

Preformed enolate anions using LDA can be used to carry out a wide variety of crossed enolate reactions, including aldol reactions, Claisen condensations, Michael additions, alkylations, and acylations. 

Crossed Aldol Reactions Using Boron Enolates... 

Crossed Aldol Reactions Using Silicon Enolates 137... 

Crossed Aldo Reactions Using Silicon Enolates 149 O... 

The use of enol- and phenol-esters in cross-coupling reactions is a valuable protocol, as it gives an indirect way to involve readily available phenols and carbonyl compounds as the electrophilic components of cross-couplings (Equation (22)) ... 

An application of Stille couplings to the solid phase using a traceless A-glycerol linker with 2-stannylindoles has been developed [177]. Only a few examples of the use of 3-stannylindoles in Stille reactions have been described. Ortar and co-workers prepared 169 and 170 and effected Pd-catalyzed cross coupling reactions with several aryl, heteroaryl, and vinyl substrates (bromides, iodides, triflates) to give the expected products 171 in high yields [178]. Enol triflates behave exceptionally well under the Ortar conditions, e.g., 172 to 173. 

The Mukaiyama reaction is a versatile crossed-aldol reaction that uses a silyl enol ether of an aldehyde, ketone, or ester as the carbon nucleophile and an aldehyde or ketone activated by a Lewis acid as the carbon electrophile. The product is a /1-hydroxy carbonyl compound typical of an aldol condensation. The advantages to this approach are that it is carried out under acidic conditions and elimination does not usually occur. 

The Denmark phosphoramide organocatalyst has recently been applied in the first catalytic, diastereoselective, and enantioselective crossed-aldol reaction of aldehydes [86]. It is worthy of note that such controlled stereoselective selfcondensation of aldehydes has previously found no general application, because of many side-reactions, e.g. polyaldolization, and dehydration of the products. Several previously developed solutions have limitations. In a first step the Denmark group developed a procedure for generation of stereodefined trichlorosilyl enolates of aldehydes with high geometrical purity. Use of these geometrically pure (Z) and... 

Crossed aldol reaction between an aromatic aldehyde and the TMS enolate of another aldehyde proceeds smoothly in wet or dry DMF using a lithium carboxylate as Lewis base catalyst.158 One-pot conversion to 1,3-diols using sodium borohydride as reductant gives up to 87% yield. A similar report, using tetrabutylammonium phe-nolates as Lewis bases, is diaslereoselective.159... 

In the crossed aldol reaction between acetaldehyde and propiophenone, two chirality centres are created and consequently, four stereoisomers will be produced. Compounds A and B are enantiomers of each other and can be described with the stereo descriptor u. Similarly, C and D are enantiomers and are /-configured. Since both starting materials are achiral, without the use of a chiral base or chiral auxiliary, racemates will be produced. Likewise the choice of base, the addition of a Lewis acid and the reaction conditions used to form the enolate can control which diastereomer is preferentially formed. If the Z enolate is formed, the u product is the preferred product, whilst the E enolate yields predominately the / product. 

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