Chiral auxiliaries symmetric diamines

The highest ee s reported to date for the addition of achiral organometallic reagents in the presence of aprotic chiral additives were observed with the C2-symmetric diamines 10, 11 and 12 (Table 25)13 — 15. Enantioselectivities as high as 89% ee were observed with chiral auxiliary 1012. Addition of phenyllithium to pentanal proceeds with lower enantioselection that the analogous addition of butyllithium to benzaldehydeu. Generally, the enantioselcctivity in-... 

This report prompted further study of asymmetric dihydroxylation, and higher enantioselect-ivity has been realized with various C2- or quasi-C2-symmetric diamines as the chiral auxiliaries.168-174 One example reported by Tomioka and Koga is shown in Scheme 43.170 Although the reaction is highly enantioselective, it needs the use of stoichiometric 0s04 and chiral diamine, because the diamine coordinates Osvl ion strongly and retards its reoxidation to Osvm ion. 

Extensive optimization studies identified highly electron-deficient 2,4-dinitrobenzyl-substituted aziridines as the most reactive substrates, chromium as the metal of choice, and indanol-derived Schiff bases as the most effective ligands. In this ring-opening process, catalyst 61 provided the highest selectivities. Using these optimized conditions, a variety of aziridines were selectively opened in a very efficient manner (Scheme 17.21).51 This reaction can provide an easy access to C2-symmetric 1,2-diamines, a valuable class of chiral auxiliaries, and even to less accessible non-C2-symmetric 1,2-diamines because of the differentially protected amines of the ring-opened products. 

Another important source of chiral auxiliaries for the synthesis of optically active phosphorus derivates are the C2 symmetric diamines such as 1,2-diaminocyclohex-anes. In 1994, Hanessian and co-workers described the use of A,/V -dimethyl-(R,R)-1,2-diaminocyclohexane 93 as a chiral auxiliary in the synthesis of optically pure or enantiomerically enriched a-alkyl a-amino phosphonic acids [49], Starting from easily accessible optically pure diamine 93, they synthesized in good yield (75 %) enantiomerically pure (R,R)-ethylphosphonamide 94 by condensation with ethyl phosphonic dichloride in benzene in the presence of triethylamine (Scheme 43). 

Chiral C2-symmetric vicinal diamines have emerged as powerful tools for the synthesis of enantiomerically pure compounds and are now commonly used as chiral auxiliaries or ligands for a wide array of asymmetric chemical transformations, with efficiencies comparable to those obtained with the closely related... 

The enolates of //-acylimidazolidinones derived from 1.131 generated from ephedrine 1.61 (R = H) are useful in asymmetric alkylations [447, 448] and aldol reactions [449, 450] and cuprate additions to the a,p-unsaturated acyl analogs have recently been described [451], These chiral auxiliaries are cleaved by MeONa/MeOH or LiEtBHj. Recently, Davies and coworkers have suggested the use of symmetrical AyV-diacyl-1,3-imidazolidin-2-ones 1.132, formed from diamines having a C2 axis of symmetry [452], for asymmetric aldol reactions [449]. Juaristi [453] has used peihydropyrimidin-4-ones for related purposes. 

Dihydroxylation. Besides the enormously popular and effective cinchona alkaloid-based chiral auxiliaries several C2-symmetrical diamines (13), (14) and (15) have been developed to direct alkene dihydroxylation with OSO4. These efforts are probably overwhelmed by the Sharpless protocols because the approaches are not catalytic with respect to the most expensive and toxic reagent. 

---