Phase transfer catalysis chiral

Early work on the use of chiral phase-transfer catalysis in asymmetric Darzens reactions was conducted independently by the groups of Wynberg [38] and Co-lonna [39], but the observed asymmetric induction was low. More recently Toke s group has used catalytic chiral aza crown ethers in Darzens reactions [40-42], but again only low to moderate enantioselectivities resulted. 

Efficient Asymmetric Alkylations via Chiral Phase-Transfer Catalysis Applications and Mechanism... 

The epoxidation of enones using chiral phase transfer catalysis (PTC) is an emerging technology that does not use transition metal catalysts. Lygo and To described the use of anthracenylmethyl derivatives of a cinchona alkaloid that are capable of catalyzing the epoxidation of enones with remarkable levels of asymmetric control and a one pot method for oxidation of the aUyl alcohol directly into... 

Jew, Park and coworkers performed systematic investigations to develop a more efficient system for the asymmetric synthesis of a-alkylalanines by chiral phase-transfer catalysis [31]. Eventually, sterically more demanding 2-naphthyl aldi-mine tert-butyl ester 14 was identified as a suitable substrate, and its alkylation in the presence of stronger base rubidium hydroxide (RbOH) and 0(9)-allyl-N-2, 3, 4 -trifluorobenzyldihydrocinchonidinium bromide (6a) at lower reaction temperature led to the highest enantioselectivity (Scheme 2.11). 

Enantioselective Michael addition of glycine derivatives by means of chiral phase-transfer catalysis has been developed to synthesize various functionalized a-alkyl-a-amino acids. Corey utilized 4d as catalyst for asymmetric Michael addition of glycinate Schiff base 1 to a,(3-unsaturated carbonyl substrates with high enantioselectivity (Scheme 2.15) [35,36]. With methyl acrylate as an acceptor, the a-tert-butyl-y-methyl ester of (S)-glutamic acid can be produced, a functionalized glutamic acid... 

An additional interesting example is the conjugate addition of 1 to activated allylic acetates 18 under the chiral phase-transfer catalysis of 4d, and subsequent elimination reaction, as reported by Ramachandran and coworkers, as this enables the synthesis of various enantiomerically enriched glutamic add derivatives [39]. The utility of this process has been demonstrated by the transformation of (S)-19 (R = Ph) into 4-substituted pyroglutamate (2S,4S)-20, as illustrated in Scheme 2.17. 

In the situation that the chiral phase-transfer catalysis has scarcely been applied for the radical reaction, Jang and Cho recently developed the enantioselective addition of... 

The chiral phase-transfer catalysis of le was further applied to the facile synthesis of L-Dopa ester and its analogue, which usually have been prepared by either asymmetric hydrogenation of eneamides or enzymatic processes, and tested as potential drugs for the treatment of Parkinson s disease. Phase-transfer-catalyzed alkylation of 2 with the requisite benzyl bromide 35a in toluene-50% KOH aqueous solution proceeded smoothly at 0 °C under the influence of (R,R)-le to furnish fully protected L-Dopa tert-butyl ester this was subsequently hydrolyzed to afford the corresponding amino ester 36a in 81% yield with 98% ee. Debenzylation of 36a under... 

Since the aldimine Schiff base 21 can be readily prepared from glycine, direct stereoselective introduction of two different side chains to 21 by appropriate chiral phase-transfer catalysis would provide an attractive, yet powerful, strategy for the asymmetric synthesis of structurally diverse a,a-dialkyl-a-amino acids. This possibility of a one-pot asymmetric double alkylation has been realized by using N-spiro chiral quaternary ammonium bromide le (Scheme 5.21). 

Table 5.8 Stereoselective N-terminal alkylation of dipeptides by chiral phase-transfer catalysis.

The catalytic asymmetric epoxidation of electron-deficient olefins, particularly a,P-unsaturated ketones, has been the subject of numerous investigations, and as a result a number of useful methodologies have been elaborated [44], Among these, the method utilizing chiral phase-transfer catalysis occupies a unique position in terms of its practical advantages. Moreover, it also allows the highly enantioselective epoxidation of trans-a,P-unsaturated ketones, particularly chalcone. 

Asymmetric epoxidation catalyzed by chiral phase-transfer catalysts is another reaction which has been extensively studied following an initial report by Wynberg [2,44]. Shioiri et al. further improved the enantioselective epoxidation of naphthoquinones under cinchona alkaloid-derived chiral phase-transfer catalysis [45],... 

Verbicky, J.W. and O Neil, E.A. (1985) Chiral phase-transfer catalysis. Enantioselective alkylation of racemic alcohols with a nonfunctionalized optically active phase-transfer catalyst. 

Heterogeneous Catalysis Chiral Phase-Transfer Catalysis 129... 

In 1992, O Donnell succeeded in obtaining optically active a-methyl-a-amino acid derivatives 49 in a catalytic manner through the phase-transfer alkylation of p-chlorobenzaldehyde imine of alanine tert-butyl ester 48 with cinchonine-derived la as catalyst (see Scheme 4.16) [46]. Although the enantioselectivities are moderate, this study is the first example of preparing optically active a,a-dialkyl-a-amino acids by chiral phase-transfer catalysis. 

Enantioselective Michael addition of glycine derivatives by means of chiral phase-transfer catalysis has been developed to synthesize various functionalized a-alkyl-amino acids. Corey and colleagues utilized 30d as a catalyst for the asymmetric... 

Dolling UH, Davis P, Grabowski EJJ (1984) Efficient catalytic asymmetric alkylations, 1. Enantioselective synthesis of (+)-indacrinone via chiral phase-transfer catalysis. J Am Chem Soc 106 446... 

Maruoka K (2006) Chiral phase transfer catalysis for practical asymmetric synthesis. 45th Tutzing Symposiom Organocatalysis, Tutzing, Germany, October 8-11... 

Reviews on phase-transfer catalysis for the syntheses of a-amino acids, (a) Ooi, T. and Maruoka, K. (2004) Asymmetric organocatalysis of structurally well-defined chiral quaternary ammonium fluorides. Acc. Chem. Res., 37, 526-533 (b) Maruoka, K. and Ooi, T. (2003) Enantioselective amino acid synthesis by chiral phase-transfer catalysis. Chem. Rev., 103, 3013-3028 (c) Ooi, T. and Maruoka, K. (2003) Enantioselective synthesis of a-amino acids by chiral phase-transfer catalysis. Yuki Gosei Kagaku Kyokaishi (J. Synth. Org. Chem.) 61, 1195-1206. 

Dolling, U.-H. Davis, P. Grabowski, E. J. J., Efficient Catalytic Asymmetric Alkylations. 1. Enan-tioselective Synthesis of (+)-Indacrinone via Chiral Phase-Transfer Catalysis. / Am. Chem. Soc. 1984, 106, 446. 

The Darzens reaction (tandem aldol-intramolecular cyclization sequence reaction) is a powerful complementary approach to epoxidation (see Chapter 5) that can be used for the synthesis of a,P-epoxy carbonyl and a,p-epoxysulfonyl compounds (Scheme 8.32). Currently, all catalytic asymmetric variants of the Darzens reactions are based on chiral phase-transfer catalysis using quaternary ammonium salts as catalysts. 

The foregoing approach to the aza-Henry reaction can be also classified as an example of chiral phase transfer catalysis. A more recent example of chiral phase transfer catalysis in water was made possible by a careful molecular design aiming at incorporating into the same species both a water soluble frame in the form of a long PEG chain and two catalytically active quininium salt moieties. The synthetic plan is shown in Figure 13 The... 

Chiral phase-transfer catalysis (PTC) is a very interesting methodology that typically requires simple experimental operations, a mild reaction conditions and inexpensive and/or environmentally benign reagents, and which is amenable to large-scale preparations [15]. The possibihty of developing recoverable and recyclable chiral catalysts has attracted the interest of many groups. Indeed, the immobilization of chiral phase-transfer catalysts has provided the first demonstrations of the feasibility of this approach. 

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