Organocatalysis enamine

Direct enantioselective catalytic a-fluorination of aldehydes has been carried out using jV-fluorobenzenesulfonimide [F-N-(02SPh)2] and a chiral secondary amine (an imidazolidinone) to provide enamine organocatalysis.295... 

It should be noted that, even though chiral proline was used in the second example, only residual enantioselectivity was observed. The first two examples are typical enamine organocatalysis the third example [96] probably involves a Baylis-Hillman type mechanism (nucleophilic catalysis). 

Rueping, M., Sunden, H., Hubener, L., Sugiono, E. (2012). Asymmetric oxidative Lewis base catalysis-unifying iminium and enamine organocatalysis with oxidations. Chemical Communications (Cambridge), 48, 2201-2203. 

The Catalysis Concept of Enamine Activation Enamine catalysis is one of the most thoroughly investigated research areas within organocatalysis. The... 

Keywords Aldehydes and ketones Alpha-fnnctionalization Amines Enamine catalysis Organocatalysis... 

Notz W, Tanaka F, Barbas CF (2004) Enamine-based organocatalysis with proline and diamines the development of direct catalytic asymmetric aldol, Mannich, Michael, and Diels-Alder reactions. Acc Chem Res 37(8) 580-591... 

Keywords Aldol, Direct, Ketone, Asymmetric catalysis, Enantioselective reaction, Diastereo-selectivity, 1,2-Diol, Aldehyde, Enamine, Lewis acid, Bronsted base, Organocatalysis, Bimetal-... 

The formation of covalent substrate-catalyst adducts might occur, e.g., by single-step Lewis-acid-Lewis-base interaction or by multi-step reactions such as the formation of enamines from aldehydes and secondary amines. The catalysis of aldol reactions by formation of the donor enamine is a striking example of common mechanisms in enzymatic catalysis and organocatalysis - in class-I aldolases lysine provides the catalytically active amine group whereas typical organocatalysts for this purpose are secondary amines, the most simple being proline (Scheme 2.2). 

Nicewicz and MacMillan merged later photoredox catalysis and asymmetric organocatalysis to an efficient approach to the otherwise difficult asymmetric a-alkylation of aldehydes 118 by activated alkyl bromides 117 (Fig. 30) [183]. The concept of face differentiation at the a-position of aldehydes via chiral enamines 121 provides the basis for the method. This allows the formation of functionalized... 

Enamine catalysis often delivers valuable chiral compounds such as alcohols, amines, aldehydes, and ketones. Many of these are normally not accessible using established reactions based on transition metal catalysts or on preformed enolates or enamines, illustrating the complimentary nature of organocatalysis and metallocatalysis. 

Selected recent developments in the area of asymmetric organocatalysis in our laboratory have been briefly summarized. Enamine catalysis, Brpnsted acid catalysis, and iminium catalysis turn out to be powerful new strategies for organic synthesis. Using Hantzsch ester as the hydride source, highly enantioselective transfer hydrogenantion reactions have been developed. We have also developed an additional new con-... 

Notz, W., Tanaka, F., Barbas, C. F., III. Enamine-Based Organocatalysis with Proline and Diamines The Development of Direct Catalytic Asymmetric Aldol, Mannich, Michael, and Diels-Alder Reactions. Acc. Chem. Res. 2004, 37, 580-591. 

One of the milestones in the development of organocatalysis is the intramolecular aldol reaction catalyzed by proline developed independently by two industrial research groups at Hoffmann-La Roche and Schering (Scheme 1.3). This reaction, also known as the Hajos-Parrish-Eder-Sauer-Wiechert reaction, was reported in 1971 and is based on the foundations of stoichiometric enamine chemistry by Stork and the mechanistic conclusions driven by Langebeck himself on some enzymatic reactions, and outlines for the first time the reversible formation of a nucleophilic enamine as the key intermediate participating in the catalytic cycle. 

The reason the ehemical community overlooked organocatalysis is complex and difficult to state. This burgeoning field is associated with many transient chemical characteristics that include the modes of catalysis (enamine and iminium ion catalysis)/ atypical reactivity and various transformations. 

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