Protonated chiral prolinamide catalyzed enantioselective direct aldol reaction in water

Protonated chiral prolinamide organocatalysts have been shown to catalyze an enantioselective direct aldol process in water to provide the aldol product in high yield and good enantioselectivity. The two diastereomeric catalysts (S,R)-4b and (S,S)-4c show different reactivity.     

Direct asymmetric aldol reaction catalyzed by simple prolinamide phenols

Simple prolinamides 1a–f were synthesized, and their catalytic effects on the direct asymmetric aldol reactions in organic solvents and in water were evaluated. Prolinamide phenols 1a–d were found to be effective catalysts for the reaction of aromatic aldehydes with cyclohexanone in neat ketone and in water. The anti-aldol products were obtained with up to 98/2 anti/syn ratio and 96% ee in neat ketone, 98/2 anti/syn ratio and 99% ee in water, respectively.     

Highly enantioselective direct aldol reaction catalyzed by organic molecules

We have demonstrated that a new class of l-proline-based organic compounds catalyzed the direct aldol reaction between aldehydes and acetone to provide beta-hydroxy ketones in good yields. The reaction is efficient, and 5-10 mol % of the catalyst and excellent enantioselectivities (97-99% ee) were obtained in both aromatic and aliphatic aldehydes. The presence of a gem-diphenyl group at the beta-carbon is necessary for high enantioselectivity.     

Highly diastereo- and enantioselective direct aldol reaction under solvent-free conditions

An efficient, solvent-free protocol for the asymmetric aldol reaction between aldehydes and ketones using prolinamides 1–4 as organocatalysts is reported. Catalysts 2–4, in the presence of TFA (the ratio of catalyst and TFA = 1/1.5), proved to be excellent catalysts, giving the aldol products between aromatic aldehydes and ketones with nearly perfect diastereo- and enantioselectivities (up to >99:1 dr and >99% ee). This catalytic system can also be applied in the cross-aldol reaction of isatin with ketones and the Michael reaction between cyclohexane and nitroalkenes. A mechanism is proposed to account for the formation of the major enantiomer in this reaction.     

Highly enantioselective direct aldol reaction catalyzed by cinchona derived primary amines

Highly enantioselective aldol reactions of aldehydes with cyclic ketones catalyzed by a primary amine derived from cinchonine are reported. Aromatic aldehydes reacted with various cyclic ketones cleanly to afford the anti-aldol adducts in up to 99% yield, with good diastereoselectivities (up to 9 : 1) and excellent enantioselectivities (up to 99% ee).     

Highly efficient three-component Strecker-type reaction catalyzed by MgI2 etherate under solvent-free conditions

A concise, straightforward and efficient method has been developed for the synthesis of α-aminonitriles by an one-pot three-component condensation of aldehydes or ketones, amines and trimethylsilyl cyanide catalyzed by MgI₂ etherate under solvent-free conditions. This protocol has some advantages such as mild reaction condition, simple work-up, short reaction time and high product yields.     

Highly efficient prolinamide-based organocatalysts for the direct asymmetric aldol reaction in brine

Four prolinamide-based organocatalysts were readily synthesized and applied to the direct asymmetric aldol reactions of ketones and aromatic aldehydes in brine. When 2,4-dinitrophenol (DNP) was used as an acidic additive, 1 mol % low loading of 2b afforded aldol products with excellent diastereoselectivity of up to 98/2 dr and high enantioselectivity of up to 97% ee.     

Highly stereoselective direct aldol reactions catalyzed by a bifunctional chiral diamine

The enantioselective organocatalytic direct aldol reactions of ketones with various aldehydes were developed by using chiral 1,2-cyclohexanediamine (DACH) based multifunctional ligands via a noncovalent catalysis mechanism. By using a catalyst, we also obtained functionalized 3-alkyl-3-hydroxyindolin-2-ones in high yields and with good to excellent enantioselectivities.     

Primary amine catalyzed direct asymmetric aldol reaction assisted by water

l-Valine was found to be an active catalyst in the asymmetric direct aldol reaction. The aldol reaction of a variety of aromatic aldehydes with acetone was catalyzed by 20 mol % of l-valine at 35 °C with the aldol products obtained in moderate to good yields (48–83%) and enantiomeric excesses (42–72%). The reaction was more efficient catalytically with best results observed in the presence of 1 mol equiv of water, with respect to the aldehyde, in either DMSO or DMF as solvent. The effect of water concentration on the reaction rate and enantioselectivity was also investigated. Thus, with increasing water concentration in DMSO there was decreasing enantioselectivity. However, the reaction in the presence of l-phenylalanine showed a lower level of reactivity and enantioselectivity to afford the aldol in 25% with 31% ee. In marked contrast, reaction with l-phenylglycine resulted in the negligible formation of the aldol (<5%). Our results, suggest a new strategy in the design of new bioorganic catalysts for direct asymmetric aldol reactions.     

Highly efficient and chemoselective direct aldol reaction of acyldiazomethane with aldehydes promoted by MgI2 etherate

College of Pharmaceutical Sciences, Zhejiang University of Technology, Hangzhou 310032, China MgI₂(Et₂O)_n promoted aldol condensation of various aldehydes with acyldiazomethane was described in the presence of DIPEA in good to excellent yields under mild conditions with high chemoselectivity.     

Highly efficient primary amine organocatalysts for the direct asymmetric aldol reaction in brine

Organocatalytic systems made up of six primary amine organocatalysts, derived from natural primary amino acids, in combination with 2,4-dinitrophenol (DNP) have proven to be efficient in the presence of brine without further addition of organic solvents. The system formed by 1f and DNP was the most efficient one; it can catalyze the direct aldol reaction with a broad range of ketones and aromatic aldehydes, giving the corresponding aldol products in high yields with up to nearly perfect diastereo- and enantioselectivities (up to 99/1 syn/anti, >99% ee).     

Zn-proline catalyzed direct aldol reaction in aqueous media

Zn complexes of proline, lysine and arginine are efficient catalysts for the aldol addition of p-nitrobenzaldehyde and acetone in aqueous medium, giving quantitative yields and enantiomeric excesses up to 56% with 5 mol% of the catalysts at room temperature.     

Highly chemoselective and efficient Strecker reaction of aldehydes with TMSCN catalyzed by MgI2 etherate under solvent-free conditions

Abstract

Strecker reaction of various substituted aromatic aldehydes, heteroaromatic aldehydes, aliphatic aldehydes and α,β-unsaturated aldehydes with trimethylsilyl cyanide (TMSCN) was realized in the presence of 5?mol % of MgI₂ etherate in a mild, efficient and highly chemoselective manner under solvent-free conditions.     

Camphor-10-sulfonamide-based prolinamide organocatalyst for the direct intermolecular aldol reaction between ketones and aromatic aldehydes

Prolinamides derived from l-proline and N,N-dialkyl 2-aminocamphor-10-sufonamides have been synthesized and used as organocatalysts in the direct intermolecular aldol reaction. Reactions of several aromatic aldehydes with cyclohexanone, cyclopentanone, 4-oxa and 4-sulfa-cyclohexanones and acetone are investigated employing 1a as an organocatalyst. Very high to excellent selectivities are obtained in these direct aldol reactions.     

Chiral spiroborate esters catalyzed highly enantioselective direct aldol reaction

Asymmetric catalysis of chiral spiroborate esters with an O₃BN framework toward the direct aldol reaction of acetone and aromatic aldehydes was examined, and a new, efficient chiral catalyst was discovered. In the presence of the novel catalyst, acetone was allowed to react with aromatic aldehydes at 0 °C for 50 h to afford chiral β-hydroxyketone in up to >99% ee and 92% yield. The catalyst, which is readily synthesized, is highly stable to hydrolysis, thermolysis, oxidation, and racemization, can be conveniently recovered.     

模拟醛缩酶催化不对称直接Aldol反应新进展

对天然醛缩酶的作用机理进行了一般性阐述，在此基础上详细回顾了近几年对 两类醛缩酶的模拟催化不对称直接Aldol反应，并对其发展前景作了展望。     

Rationally designed 4-phenoxy substituted prolinamide phenols organocatalyst for the direct aldol reaction in water

A rationally designed 4-phenoxy substituted prolinamide phenols as an efficient hydrophobic organocatalyst for direct asymmetric aldol reaction in water has been developed. High yield (up to 99%), diastereoselectivity (up to 99:1), and enantioselectivity (up to 97%) were obtained under optimal condition. The influence of substituent groups on the reactivity of catalysts was studied in detail.     

Small organic molecule catalyzed enantioselective direct aldol reaction in water

Protonated pyrrolidine based small organic molecules have been designed and evaluated for the asymmetric direct aldol reaction in water. The designed organocatalysts are multifunctional in nature and exploit the combined effect of hydrogen bonding and hydrophobic interactions for enantioselective catalysis in water. As a result a unique direct asymmetric aldol reaction in water catalyzed by a small organic molecule having an amide linkage has been developed. The developed catalyst affords chiral β-hydroxyketones in good yields (93%) and enantioselectivities (upto 62%) in water.     

Highly efficient and reusable dendritic catalysts derived from N-prolylsulfonamide for the asymmetric direct aldol reaction in water

The direct aldol reactions catalyzed by chiral dendritic catalysts derived from N-prolylsulfonamide gave the corresponding products in high isolated yields (up to 99%) with excellent anti diastereoselectivities (up to >99:1) and enantioselectivities (up to >99% ee) in water. In addition, catalyst 1e may be recovered by precipitation and filtration and reused for at least five times without loss of catalytic activity.     

Highly enantioselective organocatalytic direct aldol reaction in an aqueous medium

We have demonstrated that small organic molecules 1 and 2 catalyzed the direct aldol reaction of both acyclic and cyclic ketones with different aldehydes in an excess of water/brine. Excellent enantioselectivities up to >99% and diastereoselectivities up to 99% with very good yields were obtained by using much lower catalyst loadings (0.5 mol %).