A-aminoxylation, of aldehydes and ketone

Strategy A. The enamine strategy to asymmetric transformations of carbonyl compounds is also exploited for the construction of carbon-heteroatom bonds using proline as catalyst, dissolved in ionic liquid media. Thus, a highly enantioselective a-aminoxylation of aldehydes and ketones has been reported based on the use of nitrosobenzene as the aminoxylating agent and catalysed by proline in [bmim] and [pmim] [BF4] and The reaction reported in Figure 6 affords poorer values in terms of yield and reaction rate when carried out in molecular solvents. Conversely, proline dissolved in the IL is recovered up to 6 times without appreciable loss of activity. 

Scheme 9.41 Direct a-aminoxylation of aldehydes and ketones with nitrosobenzene.

Recently, some extensive research has been devoted to exploring a diastereo-selective and enantioselective route for the synthesis of a-hydroxyaldehydes or a-hydroxyketones because they are important building blocks for the construction of complex natural products and biologically active molecules [91]. In parallel with the transition-metal-catalyzed asymmetric nitroso-aldol reaction [92], much interest has also been expressed towards the proline-catalyzed direct asymmetric a-aminoxylation of aldehydes or ketones for the synthesis of optically active a-hydroxyladehydes and a-hydroxyketones [93]. Wang [94] and Huang [95] independently reported an L-proline-catalyzed asymmetric a-aminoxylation reaction in ionic liquids, whereby it was found tliat aldehydes and ketones could undergo... 

Chiral nonracemic enamines formed in situ by reaction of aldehydes and ketones with proline-based organocatalysts also undergo stereoselective a-oxygenation. MacMillan and coworkers have achieved enantioselective a-oxidation of a range of aliphatic aldehydes such as (5.87) with 97-99% ee using proline in combination with nitrosobenzene (5.85). This method can be applied to the aminoxylation of six-membered cyclic ketones such as 1,4-cyclohexanedione monoethylene ketal (5.88). 59... 

Other secondary amines (11-14) have also been used in this transformation (Figure 12.2). Among proline derivatives [40-42], catalyst 11 afforded good yields and enantioselectivities for a broad scope of aldehydes and ketones, with lower catalyst loading and shorter reaction times [40]. Interestingly, binaphthyl-based secondary amine 14 also proved to be successful in the a-aminoxylation of aldehydes [43,44]. Recently, Pericas and co-workers reported the use of an insoluble. 

Chiral non-racemic 0-(2-ketoalkyl) A-phenylhydroxylamines such as 115 (equation 84) can be prepared through catalytic enantioselective a-aminoxylation of carbonyl compounds catalyzed by proline. This reaction proceeds with a variety of ketones and aldehydes although it has been tried only with a nitrosobenzene component ... 

Very recently, Pericas reported a new strategy to immobihze trans-4-hydroxypro-line onto an insoluble Merrifield-type polymer by exploiting Cu(I)-catalyzed 1,3-dipolar cycloaddition ( click chemistry ) [42]. The supported catalyst 25 was successfully employed in the a-aminoxylation of ketones and aldehydes (Scheme 8.13). Under the optimized reaction conditions (20mol%/cat, 2 equiv. ketone, DMF, 23 °C, 3 h), the reaction of cyclohexanone with nitrosobenzene catalyzed by 25 gave the product in 60% yield and 98% ee (Scheme 8.13 Equation a). It should be noted that the reaction rates of cyclic ketones with supported catalyst are faster than those reported with (S)-proline. The use of a supported catalyst allowed for a simplification of the work-up procedure, as the product could often be obtained after simple filtration of the catalyst and evaporation of the solvents. Furthermore, 25 was recycled up to three times without any decrease in either the chemical and/or stereochemical efficiency. 

Aldehydes and ketones could be asymmetrically a-amino-oxylated [36, 37] or a-aminated [38] to corresponding poly-functional compounds 8 and 9 by proline-catalyzed reactions with nitrosobenzene or diethyl azodicarboxylate in molten imidazoUum salts (Scheme 22.5). As compared to those in common solvents, the yields of a-aminoxylation products 8 of both aldehydes and ketones improved significantly in the IL medium and the enantioselectivity was excellent Yields and enantiomeric enrichment of hydrazino-aldehydes 9 were somewhat lower. The ionic environment considerably accelerated the processes and the (S)-proline/IL system could be quantitatively recovered after completion of the aminoxylation reaction and reused (5-6 times) without any loss of catalytic performance. Aldehyde-derived products 8 and 9 (R = H) could be reduced to chiral 1,2-diol derivatives 10 or configurationally stable heterocycles 11, which are valuable intermediates in asymmetric synthesis. 

Not only derivatives from proline are able to catalyze this transformation but also binaphthyl-based chiral secondary amine 67 (5 mol%) has been applied in the a-aminoxylation of both aldehyde and ketone substrates [99]. 

This asymmetric a-aminoxylation can be applied to a wide range of aldehydes (Table 6.1) and six-membered cyclic ketones (Table 6.2). Because of the easy conversion of a-aminoxy moiety to the a-hydroxy group, " operational simplicity, and the... 

Proline-derived sulfonylcarboxamides are excellent catalysts for the direct enan-tioselective a-oxidation of ketones and aldehydes with nitrosobenzene. The alkyl-and arylsulfonylcarboxamides furnished the corresponding a-aminoxylated products in good yields with up to >99% ee.82... 

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