Aldehydes asymmetric aldol reactions

Sn(OTf)2 can function as a catalyst for aldol reactions, allylations, and cyanations asymmetric versions of these reactions have also been reported. Diastereoselective and enantioselective aldol reactions of aldehydes with silyl enol ethers using Sn(OTf)2 and a chiral amine have been reported (Scheme SO) 338 33 5 A proposed active complex is shown in the scheme. Catalytic asymmetric aldol reactions using Sn(OTf)2, a chiral diamine, and tin(II) oxide have been developed.340 Tin(II) oxide is assumed to prevent achiral reaction pathway by weakening the Lewis acidity of Me3SiOTf, which is formed during the reaction. 

Starting from ketone(i )-/(S )-49, the asymmetric aldol reaction with aldehyde in the presence of 45a or 45b affords all four isomers of //-hydroxyl ketone 47, 48, 50, and 51 with high yields and stereoselectivities (Scheme 3-17). 

The next step to erythronolide A is the coupling of fragments A and B. Asymmetric aldol reaction of aldehyde 2 with a lithium enolate generated from... 

Lewis acids as water-stable catalysts have been developed. Metal salts, such as rare earth metal triflates, can be used in aldol reactions of aldehydes with silyl enolates in aqueous media. These salts can be recovered after the reactions and reused. Furthermore, surfactant-aided Lewis acid catalysis, which can be used for aldol reactions in water without using any organic solvents, has been also developed. These reaction systems have been applied successfully to catalytic asymmetric aldol reactions in aqueous media. In addition, the surfactant-aided Lewis acid catalysis for Mannich-type reactions in water has been disclosed. These investigations are expected to contribute to the decrease of the use of harmful organic solvents in chemical processes, leading to environmentally friendly green chemistry. 

Y. M. A Yamada, N. Yoshikawa, H. Sasai, M. Shibasaki, Direct Catalytic Asymmetric Aldol Reactions of Aldehydes and Unmodified Ketones, Angew. Chem. Int. Ed EngL 1997, 36,1871-1873. 

Scheme 19 Asymmetric aldol reactions with aldehyde donors...

The gold catalyst has provided some very important achievements in chemistry in general, such as the asymmetric aldol reaction of aldehydes with isocyanoacetates reported by Ito, Sawamura and Hayashi [12,176]. The use of chiral ferrocenylpho-sphine gold (I) complexes allowed them to obtain enantiomerically-pure oxazo-lines. 

Important extensions of proline catalysis in direct aldol reactions were also reported. Pioneering work by List and co-workers demonstrated that hydroxy-acetone (24) effectively serves as a donor substrate to afford anfi-l,2-diol 25 with excellent enantioselectivity (Scheme 11) [24]. The method represents the first catalytic asymmetric synthesis of anf/-l,2-diols and complements the asymmetric dihydroxylation developed by Sharpless and other researchers (described in Chap. 20). Barbas utilized proline to catalyze asymmetric self-aldoli-zation of acetaldehyde [25]. Jorgensen reported the cross aldol reaction of aldehydes and activated ketones like diethyl ketomalonate, in which the aldehyde... 

The design for a direct catalytic asymmetric aldol reaction of aldehydes and unmodified ketones with bifunctional catalysts is shown in Figure 36. A Brpnsted basic functionality (OM) in the heterobimetallic asymmetric catalyst (I) could deprotonate the a-proton of a ketone to generate the metal enolate (II), while at the same time a Lewis acidic functionality (LA) could activate an aldehyde to give (III), which would then react with the metal enolate (in a chelation-controlled fashion) in an asymmetric environment to afford a P-keto metal alkoxide (IV). 

Benito Alcaide, Pedro Almendros The Direct Catalytic Asymmetric Cross-Aldol Reaction of Aldehydes, Angew. Chem. 115(8), 884-886 (2003), Angew. Chem. Int. Ed. 42(8), 858-860 (2003)... 

Bpgevig A, Kumaragurubaran N, Jprgensen KA (2002a) Direct catalytic asymmetric aldol reactions of aldehydes. Chem Commun (Camb) Mar 21 620-621... 

Yamada YM, YoshikawaN, SasaiH, Shibasaki M (1997) Direct catalytic asymmetric aldol reactions of aldehydes with unmodified ketones. Angew Chem Int Ed Engl 36 1871-1873... 

For catalytic asymmetric aldol-type reactions, the transformation of the methylene compounds to a silyl enolate or a silyl ketene acetal was at one time necessary. Recently, the aldol reaction of aldehydes with non-modified ketones was realized by use of the lanthanum-Li3-trisf(/ )-bi-naphthoxidej catalyst 22 [18]. According to the proposed catalytic cycle, after abstraction of an a-proton from the ketone, the reaction between the lithium-enolate complex and the aldehyde... 

A stoichiometric amount of 3f catalyzed the asymmetric aldol reaction of aldehydes with enol silyl ethers and subsequent asymmetric reduction, in one pot, to afford syn 1,3-diols with high enantioselectivity (Eq. 49) [43b]. With a variety of aldehydes, 1,3-diols were obtained in moderate yields (53-70 %) with high syn diastereoselectivity. The syn 1,3-diols prepared from aliphatic aldehydes in the reaction (in EtCN as sol-... 

Non-catalyzed aldol reactions via hypervalent silicon species have also been studied. An aldol reaction between aldehydes and silyl enol ethers of amides was reported by Myers [105]. The reaction can be conducted under mild conditions to produce anti aldol without Lewis acid or base catalysts (Sch. 62). Asymmetric induction was particularly high when the (Z)-silyl ketene A/,0-acetal derived from prolinol was used. 

We speculated that it might be possible to develop a direct catalytic asymmetric aldol reaction of aldehydes and unmodified ketones by employing heterobimetallic catalysts. Our initial concerns were dominated by the possibility that our heterobimetallic asymmetric catalysts would be ineffective at promoting aldol reactions because... 

The stereoselectivities seem to be kinetically controlled. In fact, the ee of the aldol product was constant during the course of the reaction. Thus, we have succeeded in performing the first catalytic asymmetric aldol reaction between aldehydes and unmodified ketones by using heterobimetallic or heteropolymetallic catalysts. Several reactions have already been synthetically useful especially for tertiary aldehydes, leading to the catalytic asymmetric synthesis of key intermediates en route to natural products [63]. Further studies are currently in progress. 

The structural variant 7 of Corey s bifluoride catalyst 4 was prepared later by Andrus and coworkers and applied as a catalyst (20mol%) to the asymmetric Mukaiyama-type aldol reaction of aldehydes with the enol silylether 8 [6]. Excellent diastereoselectivity (up to >99/1) for the syn-aldol product 9 was achieved, especially with aromatic aldehydes. However, only moderate to good enantioselectivity (44—83% ee) was obtained (Scheme 8.3). 

Mukaiyama et al. have shown that a BINOL-derived oxotitanium catalyzes the asymmetric aldol reaction of aldehydes with thioester silyl enolates [147]. In the presence of the chiral complex (20mol%), the TBS enolate of S-t-butyl thioacetate reacts smoothly with aromatic and a,/ -unsaturated aldehydes in toluene to give silylated aldols in high yields with moderate to good enantioselectivity (91-98%, 36-85% ee). The use of the TBS enolate of S-ethyl thioacetate results in lower enantioselectivity. 

While Ln(OTf)3 are the first metal salts which were found to catalyze aldol reactions of aldehydes with silyl enol ethers efficiently in aqueous media, it has been difficult to realize asymmetric versions of Ln(OTf)3-catalyzed reactions in such media. Recently, the first example of this type of reaction using chiral bis-pyridino-18-crown-6 (Structure 4) has been developed (Eq. 8) [38]. In the reaction of benzal-dehyde 5 with water-ethanol (1/9), the cation size of rare earth metal triflates including Ln(OTf)3 strongly affected the diastereo- and enantioselectivities of the... 

Novel organic molecules derived from L-proline and amines or amino alcohols, were found to catalyse the asymmetric direct aldol reaction with high efficiency. Notably those containing L-proline amide moiety and terminal hydroxyl group could catalyse direct asymmetric aldol reactions of aldehydes in neat acetone with excellent results[1]. Catalyst (1), prepared from L-proline and (IS, 2Y)-diphcnyl-2-aminoethanol, exhibits high enantioselectivities of up to 93% ee for aromatic aldehydes and up to >99% ee for aliphatic aldehydes. 

Exquisite diastereochemical control is attained by tuning the relative bulk of the two alkoxy groups in ketene silyl acetals derived from a-alkoxyacetic esters, during aldol reaction with aldehydes. A chiral version is promoted SiCU in the presence of the phos-photriamide 5. The same set of reaction conditions is also applicable to create asymmetric quaternary carbon centers, for example, in the reaction of Al-silyl ketenimines with ArCHO. °... 

Double asymmetric aldol reaction The asymmetric aldol reaction of aldehydes with silyl enol ethers catalyzed by tin(Il) triflatc and a chiral diamine such as (S)-l, l-methyl-2-[(N-naphthylamino)mcthyl]pyrrolidinc, (16,221-222), has been extended to aldol reactions of a silyl cnol ether with chiral aldehydes. 

A high enantioselectivity is found in the aldol reaction of silylketene acetal derived from ethyl l,3-dithiolane-2-carboxylate with aldehydes, which is promoted by the oxaza-borolidinone 16. The products are readily desulfurized with the stereogenic center intact. With trichlorosilyl enolates as donors and a chiral phosphoric triamide 17 as catalyst, asymmetric aldol reactions with aldehydes are realized at low temperatures. ... 

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