Asymmetric Diamination

Jprgensen reported the first catalytic asymmetric diamination procedure using an iminium ion/enamine method [113]. Treatment of an oc,P-unsaturated aldehyde with succinimide 122 in the presence of diarylprolinol ether 55 (10 mol%) gave the conjugate... 

Instead of attachment of the complex by its aromatic rings, the asymmetric diamine moiety was used as an anchoring point (93). With the pyrrolidine-salen type complex 7e, high yields and ee values were observed in the epox-idation of chromene derivatives ... 

Mukaiyama, T., and Asami, A. Chiral Pyrrolidine Diamines as Efficient Ligands in Asymmetric Synthesis. 127,133-167(1985). 

In order to synthesize 1,3-diphenyl-l, 3-diamines 3 containing a C2 axis of symmetry, which can be employed as auxiliaries and controller groups in asymmetric syntheses, the diastereoselective addition of organometallic reagents to racemic pyrazolines 2, prepared from cinnamaldehyde (l)23, was investigated. 

An approach to the preparation of asymmetrically 1,2-disubstituted 1,2-diamines has been reported the zinc-copper-promoted reductive coupling of two different N-(4-substituted)phenyl aromatic imines, one bearing a 4-methoxy and the other a 4-chloro substituent, in the presence of either boron trifluoride or methyltrichlorosilane, gave a mixture of the three possible 1,2-diamines, where the mixed one predominated [31 ]. Low degrees of asymmetric induction were observed using 1-phenylethylamine, phenylglycinol and its 0-methyl ether, and several a-amino acid esters as the chiral auxiharies meanwhile the homocoupling process was not avoided (M.Shimizu, personal communication). 

The asymmetric synthesis of unsymmetrical vicinal diamines by samarium diiodide induced reductive coupling of nitrones derived from aUphatic aldehydes with optically pure N-tert-butanesulfinyl aromatic imines has been recently reported [41]. For example, the reaction between nitrone 55 and... 

Scheme 11 Asymmetric syntheses of 1,2-diamines with a-amino organometallic reagents...

Double asymmetric induction operates when the azomethine compound is derived from a chiral a-amino aldehyde and a chiral amine, e.g., the sulfin-imine 144 [70]. In this case, the R configuration at the sulfur of the chiral auxihary, N-tert-butanesulfinamide, matched with the S configuration of the starting a-amino aldehyde, allowing complete stereocontrol to be achieved in the preparation of the diamine derivatives 145 by the addition of trifluo-romethyl anion, which was formed from trifluoromethyltrimethylsilane in the presence of tetramethylammonium fluoride (Scheme 23). The substituents at both nitrogen atoms were easily removed by routine procedures see, for example, the preparation of the free diamine 146. On the other hand, a lower diastereoselectivity (dr 80 20) was observed in one reaction carried out on the imine derived from (it)-aldehyde and (it)-sulfinamide. 

Scheme 37 Asymmetric synthesis of 1,2-diamines from chiral a-aminonitriles derived from diastereoselective aldolization...

Asymmetric nucleophilic allylic substitution has rarely been studied in its heterogeneous version, probably because of the difficulties encoimtered in properly stabilizing and recycling Pd(0) species. Nevertheless, some promising examples have been pubhshed. Lemaire et al. [143] studied the activity and enantioselectivity of various chiral C2-diamines for the asymmetric Pd-catalyzed transformation of various allyl acetates. The structures tested are represented in Scheme 58. 

Chiral amines and diamines are readily available substrates for the synthesis of ligands for transition metal-catalysed reactions since they can easily be transformed into chiral ureas and thioureas. Therefore, several groups have prepared chiral symmetrical ureas and thioureas, dissymmetrical ureas and thioureas, amino-urea and thiourea derivatives. Finally polyureas and non-soluble polythioureas were also prepared and tested as ligands for asymmetric catalysis. 

---