Hydroamination with Enantiomerical Pure Amines

Hydroamination with Enantiomerical Pure Amines 367 Table 11.3 Catalytic kinetic resolution of chiral aminopentenes [52, 124]. 

It was found that the Ti-catalyzed hydroamination reactions of alkynes with enantiomerically pure amines possessing a chiral center adjacent to the nitrogen atom generally take place with partial racemization [304]. The extent of racemization at the corresponding chiral center seems to be influenced by the structure of the amine as well as the nature of the catalyst. The Cp 2TiMe2 was identified as one of the highly active racemization-free catalysts for this reaction (Scheme 14.128). 

Two mechanistically plausible scenarios for nucleophilic attack on the q benzyl palladium species seem feasible. Formation of the C N bond could occur either via external attack of the amine through inversion of configuration at the carbon stereocenter, or alternatively the amine could coordinate to palladium followed by an internal attack on the q benzyl ligand. Mechanistic investigations [15] using stoi chiometric amounts ofthe enantio and diastereomerically pure q benzyl palladium complex [ (R) Tol BINAP [q 1 (2 naphthyl)ethyl Pd](OTf) (8) revealed that the re action with aniline produced predominantly (R) N1 (2 naphthyl)ethylaniline R) 9), consistent with external nucleophilic attack (Scheme 11.3) [15]. However, it was noted that the catalytic reaction of [ (1 ) Tol BINAP Pd(OTf)2] with vinyl arenes and amines produced preferentially the opposite enantiomeric (S) amine hydroamination... 

Hydroamination reactions involving alkynes and enantiomerically pure chiral amines can produce novel chiral amine moieties after single pot reduction of the Schiffbase intermediate 82 (Scheme 11.27) [123]. Unfortunately, partial racemiza tion ofthe amine stereocenter was observed with many titanium based hydroamina tion catalysts, even in the absence of an alkyne substrate. No racemization was observed when the sterically hindered Cp 2TiMe2 or the constrained geometry catalyst Me2Si(C5Me4)(tBuN)Ti(NMe2)2 was used in the catalytic reaction. Also, the addition of pyridine suppressed the racemization mostly. 

Hydroamination is an atom-economical process for the synthesis of industrially and pharmaceutically valuable amines. The hydroamination reaction has been studied intensively, including asymmetric reactions, and a variety of catalytic systems based on early and late transition metals as well as main-group metals have been developed." However, Group 5 metal-catalysed hydroaminations of alkenes had not been reported until Hultzsch s work in 2011. Hultzsch discovered that 3,3 -silylated binaphtho-late niobium complex 69 was an efficient catalyst for the enantioselective hydroaminoalkylation of iV-methyl amine derivatives 70 with simple alkenes 71, giving enantioselectivities up to 80% (Scheme 9.30). Enantiomerically pure (l )-binaphtholate niobium amido complex 69 was readily prepared at room temperature in 5 min via rapid amine elimination reactions between Nb(NMe2)5 and l,l-binaphthyl-2-ol possessing bullqr 3,3 -silyl substituents. Since the complex prepared in situ showed reactivity and selectivity identical... 

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