Chiral ligand, -sparteine

Kinetic resolution of some secondary allylic and benzylic alcohols has been shown to occur efficiently in the presence of the chiral ligand (—)-sparteine. For example, partial oxidation of the racemic alcohol 43 with a palladium(II) catalyst under an atmosphere of oxygen in the presence of (—)-sparteine occurs to give a mixture of the ketone 44 and recovered alcohol (5)-43 (6.39). Selective oxidation of the (i )-alcohol occurs with the chiral catalyst system. 

A chiral ligand mediated approach to lithiation-substitutions of allylic amines has also been well developed. Weisenburger and Beak demonstrated that lithiation of doubly protected allylic amines 141 in the presence of the chiral ligand (-)-sparteine (5), and substitution with a variety of electrophiles provided highly enantioenriched enecarbamate products 142 (Scheme 44) [100]. The authors demonstrated that the intermediate organolithium could be viewed as either an aldehyde P-homoenolate or y-lithioamine synthetic equivalent by hydrolysis or reduction and deprotection of the enecarbamates, respectively. 

It should also be noted that the 5-exo-trig cyclization of achiral olefinic organolithiums has been found to proceed enantioselectively when conducted in the presence of a chiral ligand that serves to render the lithium atom stereogenic. Thus, for example, R) 1 -allyl-3-methylindolinc has been prepared in 86 % ee by cyclization of an achiral aryllithium in the presence of an equivalent of (-)-sparteine.15... 

Trost et al. [36] showed, in an early report on the stoichiometric allylic alkylation of [Pd( /r -MeCHCHCHMe)Cl]2 118 with Na[CH(COOMe)2] in the presence of various chiral ligands, that sparteine would compete (amongst... 

In 2003, Sigman et al. reported the use of a chiral carbene ligand in conjunction with the chiral base (-)-sparteine in the palladium(II) catalyzed oxidative kinetic resolution of secondary alcohols [26]. The dimeric palladium complexes 51a-b used in this reaction were obtained in two steps from N,N -diaryl chiral imidazolinium salts derived from (S, S) or (R,R) diphenylethane diamine (Scheme 28). The carbenes were generated by deprotonation of the salts with t-BuOK in THF and reacted in situ with dimeric palladium al-lyl chloride. The intermediate NHC - Pd(allyl)Cl complexes 52 are air-stable and were isolated in 92-95% yield after silica gel chromatography. Two diaster corners in a ratio of approximately 2 1 are present in solution (CDCI3). 

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