Reactions Darzens condensation

Other strong base reactions such as Michael additions, aldol condensations, Wittig reactions, Darzens condensations, carbene reactions Oxidations using hypochlorite, hydrogen peroxide, oxygen, permanganate Epoxidations... 

Several years ago, there was much debate concerning the mechanism of the Darzens condensation.2.3 The debate concerned whether the reaction employed an enolate or a carbene intermediate. In recent years, significant evidence that supports the enolate mechanism has been obtained, wherein the stabilized carbanion (11) of the halide (10) is condensed with the electrophile (12) to give diastereomeric aldolate products (13,14), which subsequently cyclize via an internal Sn2 reaction to give the corresponding oxirane (15 or 16). The intermediate aldolates have been isolated for both a-fluoro- and a-chloroesters 10. 

In recent years, several modifications of the Darzens condensation have been reported. Similar to the aldol reaction, the majority of the work reported has been directed toward diastereo- and enantioselective processes. In fact, when the aldol reaction is highly stereoselective, or when the aldol product can be isolated, useful quantities of the required glycidic ester can be obtained. Recent reports have demonstrated that diastereomeric enolate components can provide stereoselectivity in the reaction examples include the camphor-derived substrate 26, in situ generated a-bromo-A -... 

The Darzens condensation reaction has been used with a wide variety of enolate equivalents that have been covered elsewhere. A recent application of this important reaction was appljed toward the asymmetric synthesis of aziridine phosphonates by Davis and coworkers.In this application, a THF solution of sulfinimine 34 (0.37 mmol, >98% ee) and iodophosphonate 35 (0.74 mmol) was treated with LiHMDS (0.74 mmol) at -78 °C to give aziridine 36 in 75% yield. Treatment of 36 with MeMgBr removed the sulfinyl group to provide aziridine 37 in 72% yield. 

Aldehydes and ketones condense with a-halo esters in the presence of bases to give ot,p-epoxy esters, called glycidic esters. This is called the Darzens condensation. The reaction consists of an initial Knoevenagel-type reaction (16-41), followed by an internal Sn2 reaction (10-13) ° ... 

The asymmetric Darzens condensation, which involves both carbon-carbon and carbon-oxygen bond constructions, was realized by use of the chiral azacrown ether 75als2,s ,ss and the quaternary ammonium salts derived from cinchona alka-loids159"621 under phase transfer catalyzed conditions. The a,p-epoxy ketone 80 (R=Ph) was obtained with reasonable enantioselectivity by the reaction of... 

The cyclic a-chloro ketone 81 which forms the (Z)-enolate only also underwent the asymmetric Darzens condensation with various aldehydes by use of the Merck catalyst 7 (R=4-CF3, X=Br) under analogous conditions to furnish the a,(3-epoxy ketones 82 with up to 86 % ee,160611 as shown in Scheme 25. It should be noted that this high enantioselectivity was attained by the reaction at room temperature. 

P. Bako, A. Szolloy, P. Bombicz, L. Toke, Asymmetric C-C Bond Forming Reactions by Chiral Crown Catalysts Darzens Condensation and Nitroalkane Addition to the Double Bond , Synlett 1997, 291-292. 

A degree of stereoselective control of the course of a reaction, which is absent or different from that prevalent when the reaction is conducted in the absence of quaternary ammonium salts, may be achieved under standard phase-transfer catalysed reaction conditions. The reactions, which are influenced most by the phase-transfer catalyst, are those involving anionic intermediates whose preferred conformations or configurations can be controlled by the cationic species across the interface of the two-phase system. For example, in the base-catalysed Darzens condensation of aromatic aldehydes with a-chloroacetonitriles to produce oxiranes (Section 6.3), the intermediate anion may adopt either of the two conformations, (la) or (lb) which are stabilized by interaction across the interface by the cations (Scheme 12.1) [1-4]. 

Darzens reaction of (-)-8-phenylmethyl a-chloroacetate (and a-bromoacetate) with various ketones (Scheme 2) yields ctT-glycidic esters (28) with high geometric and diastereofacial selectivity which can be explained in terms of both open-chain or non-chelated antiperiplanar transition state models for the initial aldol-type reaction the ketone approaches the Si-f ce of the Z-enolate such that the phenyl ring of the chiral auxiliary and the enolate portion are face-to-face. Aza-Darzens condensation reaction of iV-benzylideneaniline has also been studied. Kinetically controlled base-promoted lithiation of 3,3-diphenylpropiomesitylene results in Z enolate ratios in the range 94 6 (lithium diisopropylamide) to 50 50 (BuLi), depending on the choice of solvent and temperature. ... 

Darzens Condensation (Darzens-Claisen Reaction, Darzens Glycidic Ester Condensation)... 

Reactions of carbanions, anions of weak organic acids (e.g., indole or carbazole), and dihalocarbenes may be carried out in liquid-liquid systems, in which concentrated aqueous sodium hydroxide is the aqueous phase. The term phase transfer catalysis is mechanistically incorrect these are often referred to as catalytic two-phase systems. Numerous reactions of carbanions including alkylation, nitroarylation, addition, the Darzens condensation, cyclopropanation, and also a variety of reactions of dihalocarbenes are conveniently carried out in this way. 

Later Takahashi et al.19 have reported an alternative synthesis of the cyanooxirane (40a,b) by carrying out the reaction between decyl bromide and potassium cyanide in the presence of quaternary ammonium catalysts. Compounds prepared by this method are similar to those obtained by the Darzens condensation with benzaldehyde in a two-phase system.78... 

The stereochemistry of the Darzene condensation has received considerable attention in the literature. Early papers devoted to this aepeot of the reaction were those of Berson,1 Wasserman and oo-workere,1807-1808 and Stevens.,Ma From the work of these authors... 

Cyclopropanation, Horner-Wadsworth Emmons Reaction, and Darzens Condensation Although induction in the cyclopropanation of alkenes was reported early, this work was disputed [49]. Other reports of cyclopropanations have yielded, at best, low asymmetric inductions [llh,50]. The first example of a catalytic asymmetric Horner-Wadsworth Emmons reaction, which is promoted by a chiral quaternary ammonium salt, was reported recently by the Shioiri group (Scheme 10.10) [51]. The reaction of the prochiral ketone 74 gives optically active a,P-unsaturated ester 76 with 57% ee. 

Promising examples of the catalytic asymmetric Darzens condensation, which yields an epoxide product via carbon-carbon and carbon-oxygen bond formation, have been reported recently by two groups (Scheme 10.11). Toke and co-workers used crown ether 24 in the reaction to form the a,P-unsaturated ketone 78 [38b] with 64% ee, whereas the Shioiri group used the cinchona-derived salt 3a [52], which resulted in 78 with 69% ee. The latter authors propose a catalytic cycle involving generation of a chiral enolate in situ from an achiral inorganic base... 

Metal-based asymmetric phase-transfer catalysts have mainly been used to catalyze two carbon-carbon bond-forming reactions (1) the asymmetric alkylation of amino acid-derived enolates and (2) Darzens condensations [5]. The alkylation ofprochiral glycine or alanine derivatives [3] is a popular and successful strategy for the preparation of acyclic a-amino acids and a-methyl-a-amino acids respectively (Scheme 8.1). In order to facilitate the generation of these enolates and to protect the amine substituent, an imine moiety is used to increase the acidity of the a-hydrogens, and therefore allow the use of relatively mild bases (such as metal hydroxides) to achieve the alkylation. In the case of a prochiral glycine-derived imine (Scheme 8.1 R3 = H), if monoalkylation is desired, the new chiral methine group... 

Whilst simple alkylations of enolates and Michael additions have been successfully catalyzed by phase-transfer catalysts, aldol-type processes have proved more problematic. This difficulty is due largely o the reversible nature of the aldol reaction, resulting in the formation of a thermodynamically more stable aldol product rather than the kinetically favored product. However, by trapping the initial aldol product as soon as it is formed, asymmetric aldol-type reactions can be carried out under phase-transfer catalysis. This is the basis of the Darzens condensation (Scheme 8.2), in which the phase-transfer catalyst first induces the deprotonation of an a-halo... 

Very recently, Belokon and North have extended the use of square planar metal-salen complexes as asymmetric phase-transfer catalysts to the Darzens condensation. These authors first studied the uncatalyzed addition of amides 43a-c to aldehydes under heterogeneous (solid base in organic solvent) reaction conditions, as shown in Scheme 8.19 [47]. It was found that the relative configuration of the epoxyamides 44a,b could be controlled by choice of the appropriate leaving group within substrate 43a-c, base and solvent. Thus, the use of chloro-amide 43a with sodium hydroxide in DCM gave predominantly or exclusively the trans-epoxide 44a this was consistent with the reaction proceeding via a thermodynamically controlled aldol condensation... 

Scheme 8.19 Diastereocontrolled Darzens condensations under heterogeneous reaction conditions.

---