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Cinchona chiral Lewis base

In addition to metal catalysts, organocatalysts could also be used in asymmetric cyanation reactions. Chiral Lewis bases, modified cinchona alkaloids, catalyzed asymmetric cyanation of ketones by using ethyl cyanoformate as the cyanide source (Scheme 5.34)." Similar to metal-catalyzed reactions, ethyl cyanoformate was first activated by chiral Lewis bases to form active nucleophiles. Various acyclic and cyclic dialkyl ketones were transformed into the desired products. Because of using... [Pg.148]

Based on Pracejus s previous work with cinchona alkaloids, Bergson and Langstrom developed the Michael addition of p-ketoesters to acrolein catalyzed by 2-(hydroxymethyl)quinuclidine.Soon after, Wynberg developed severalorganocatalytic reactions using cinchona alkaloids as chiral Lewis base/nucleophilic catalysts [14]. [Pg.3]

Brpnsted) base functionality as the sole catalytically active group as well as those having an alternative H-bond donor like a hydroxy group (e.g., cinchona alkaloids) have found widespread applications in asymmetric catalysis [88]. The potential of these catalysts is due to the fact that a variety of different activation modes are possible, thus facilitating their application for different types of reactions. On the one hand, chiral (Brpnsted) bases can be used to carry out face-selective deprotonations and the formarion of chiral ion pairs, but, on the other hand, chiral (Lewis) bases can also be used as nucle-ophiUc catalysts, which represent a very important application field of chiral base catalysts. [Pg.218]

Cinchona alkaloids such as 121 possess a nucleophilic quinuclidine structure and can act as versatile Lewis bases to react with ketenes generated in situ from acyl halides in the presence of an add scavenger. By acting as nucleophiles, the resulting ketene enolates can react intermolecularly [53] or intramolecularly [54] with electrophilic C=0 or C=N bonds to deliver formal [2 + 2]-cycloadducts, such as chiral P-lactones or [1-lactams, via aldol (or Mannich)-i intramolecular cydization sequence reactions (Scheme 8.46). The nucleophilic ammonium enolate can also read with energetic... [Pg.228]

Non-fluoride initiators have been employed satisfactorily as well, including Lewis bases (amines, amine A-oxides, carbonates and phosphates," LiOAc," " f-BusF ), Lewis acids," A-heterocyclic carbenes, or even without initiator in DMSO as solvent. The addition of TMSCF3 to carbonyl compounds in the presence of a chiral initiator allows the enantioselective preparation of trifluoromethyl alcohols. For this purpose, quaternary ammonium fluorides derived from cinchona alkaloids (1) have been employed, affording moderate (up to 51% ee) " to high enantioselectivities (up to 92% ee). Also, the corresponding bromides were used in combination with an external fluoride source (KF or TMAF, up to 94% ee) or with disodium (R)-binaphtholate (up to 71% ee), or simply a cinchonidine-derived ammoniumphenoxide (up to 87% ee). Moreover, the use of a chiral TASF derivative (2) has also been reported (up to 52% ee). ... [Pg.541]

In 2006, Lectka and coworkers reported an asymmetric inverse electron demand hetero-Diels-Alder reaction (HDAR) of acyl chlorides (Bekele et al. 2006 Wolfer et al. 2006) and o-benzoquinone diimides to deliver chiral quinoxalinones (Abraham et al. 2006). In spite of perfect ee values observed by the catalysis of Lewis bases derived from cinchona alkaloids, the reaction conditions were somewhat harsh and metal triflates had to be used as co-catalysts to activate the electrophilic o-benzoquinone diimides (Abraham et al. 2006 Pauli et al. 2(X)8). [Pg.50]

Later, Lectka et al. reported a detailed synthetic and mechanistic study of unusual [4 + 2] cycloaddition of ketene enolates and o-quinones by the bifunctional catalysis of cinchona alkaloids BQD la (or BQN lb) and Lewis adds. The undertaken investigations based on the integration of experimental and calculated data itself demonstrated a surprising cooperative LA/LB interaction on a ketene enolate. It showed that the reaction of o-quinone undergoes a mechanistic switch in which the mode of activation changes from Lewis acid (LA) complexation of the quinone to metal complexation of the chiral ketene enolate. [Pg.300]

The catalytic potential of base functionalities has been referred to in the previous chapter (see Sect. 7.4), wherein the interplay between an acidic (thio-)urea and a basic amine separated by a chiral linker was shown to enable the simultaneous activation of both the electrophile and nucleophile. In addition to such brfunctional thiourea-containing acid-base catalysts, chiral catalysts containing Lewis or Br0nsted-) base functionality as the sole catalyticaUy active group as weU as those having another H-bond donor like a hydroxy group e.g. Cinchona alkaloids) have found widespread applications in asymmetric catalysis (443-449). [Pg.114]

Catalytic enantioselective cycloaddition reactions of ketenes have been intensively explored over the past several decades. Various chiral catalysts have been developed for these cycloadditions, such as cinchona alkaloids, N-heterocyclic carbene (NHC) catalysis (2013SL1614), planar-chiral 4-(JV,JV-dimethylamino)pyridine (DMAP)-derived catalysts, and Lewis acid-based catalysts (2009T6771, 2004ACR542). [Pg.196]

See other pages where Cinchona chiral Lewis base is mentioned: [Pg.5]    [Pg.2]    [Pg.6]    [Pg.1335]    [Pg.1335]    [Pg.315]    [Pg.265]    [Pg.316]    [Pg.312]    [Pg.84]    [Pg.92]    [Pg.58]    [Pg.2]    [Pg.206]    [Pg.214]    [Pg.1079]    [Pg.1079]    [Pg.569]    [Pg.569]    [Pg.350]    [Pg.130]    [Pg.276]    [Pg.665]    [Pg.219]    [Pg.360]    [Pg.1370]    [Pg.360]    [Pg.1370]   
See also in sourсe #XX -- [ Pg.2 ]



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