Azidation reaction asymmetric

Koser and Rabah have reported the synthesis of optically active 1-azido-1,3-dihydro-3-methyl-3-phenyl-1,2-benziodoxole (127) from the corresponding chlorobenziodoxole 126 (Scheme 2.44) [294]. This chiral, non-racemic azidobenziodoxole is a potentially useful reagent for asymmetric azidation reactions. 

We developed various catalytic enantioselective cyanation and azidation reactions using chiral poly rare earth metal (RE) complexes derived from ligands 5-8 and TMSCN or TMSN3 as a stoichiometric nucleophile [43, 44]. General mechanism for those asymmetric catalyses is shown in Scheme 11. First, polymetallic complexes 9 containing defined higher order strucmres are generated via a reaction... 

Intermolecular Schmidt reactions of alkyl azides and hydroxyalkyl azides with cycloketones in the presence of a Lewis acid, lead to formation of iV-alkyl lactams and A-hydroxyalkyl lactams respectively in good yield. The synthesis of chiral lactams by an asymmetric Schmidt reaction has also been reported. ... 

An example of asymmetric synthesis involving cycloaddition of an azide to dimethyl acetylenedicarboxylate is depicted in Scheme 172. Thus, asymmetric auxiliary 1042 reacts with styrene and sodium azide to generate azide 1043 in 90% yield and 94% diastereomeric purity. The following reaction (Scheme 172) with dimethyl acetylenedicarboxylate converts azide 1043 into triazole 1044 in 75% yield. Finally, the bond with selenium is cleaved by treatment with triphenyltin hydride and AIBN to furnish triazole 1045 in 80% yield and preserved optical purity (94%) <2003AGE3131>. 

Via Asymmetric Epoxidation and Related Reactions. Denis et al.35 synthesized the taxol side chain derivative via Sharpless epoxidation. Starting from cw-cinnamyl alcohol, the corresponding epoxide compound was prepared with 76-80% ee. Subsequent azide ring opening gives a product that possesses the side chain skeleton (Scheme 7-78). 

One can easily envisage the formation of stereochemically enriched materials by an asymmetric version if the methodology developed by Jacobsen et al. <2000ACR421> of epoxide ring-opening reactions with azides is applied in the reaction sequence. 

A variety of ie.so-epoxidcs could be selectively ring-opened this way with e.e. s as high as 97% [28], The azides can be converted to 1,2-amino alcohols, which are very desirable synthetic intermediates. Surprisingly, the mechanism of the ARO (asymmetric ring-opening) was more complicated than expected [29], First, it turned out that the chloride ion in Cr-salen was replaced by azide. Secondly, water was needed and HN3 rather than Me3SiN3 was the reactant nucleophile. Thirdly, the reaction rate was found to be second order in catalyst concentration, minus one in epoxide (cyclopentene oxide), and zero order in HN3 [30],... 

Asymmetric Ring Opening Reaction of Epoxides with Trimethylsilyl Azide (TMSN3)... 

Wilson and Pasternak reported the first asymmetric Staudinger reaction (Scheme 4) where the chiral phosphane (7) reacts with the racemic azide (8) to afford diastereomeric iminophosphoranes in different quantities, giving after hydrolysis an amine in slight enatiomeric excess. Separation of the racemate seems to be kinetically controlled, but needs optimization (90MI1). 

The utilization of a-amino acids and their derived 6-araino alcohols in asymmetric synthesis has been extensive. A number of procedures have been reported for the reduction of a variety of amino acid derivatives however, the direct reduction of a-am1no acids with borane has proven to be exceptionally convenient for laboratory-scale reactions. These reductions characteristically proceed in high yield with no perceptible racemization. The resulting p-amino alcohols can, in turn, be transformed into oxazolidinones, which have proven to be versatile chiral auxiliaries. Besides the highly diastereoselective aldol addition reactions, enolates of N-acyl oxazolidinones have been used in conjunction with asymmetric alkylations, halogenations, hydroxylations, acylations, and azide transfer processes, all of which proceed with excellent levels of stereoselectivity. 

---