Aryl enol esters

The reaction between acyl halides and alcohols or phenols is the best general method for the preparation of carboxylic esters. It is believed to proceed by a 8 2 mechanism. As with 10-8, the mechanism can be S l or tetrahedral. Pyridine catalyzes the reaction by the nucleophilic catalysis route (see 10-9). The reaction is of wide scope, and many functional groups do not interfere. A base is frequently added to combine with the HX formed. When aqueous alkali is used, this is called the Schotten-Baumann procedure, but pyridine is also frequently used. Both R and R may be primary, secondary, or tertiary alkyl or aryl. Enolic esters can also be prepared by this method, though C-acylation competes in these cases. In difficult cases, especially with hindered acids or tertiary R, the alkoxide can be used instead of the alcohol. Activated alumina has also been used as a catalyst, for tertiary R. Thallium salts of phenols give very high yields of phenolic esters. Phase-transfer catalysis has been used for hindered phenols. Zinc has been used to couple... 

The arylation of enol esters has also been improved (95). Previously a wide range of products were produced including j8-aryl carbonyls, arylated enol esters, styrene, and stilbene derivatives (96). It has also been found that arylated enol esters can be obtained as major products if the reactions are carried out with stoichiometric amounts of aryl mercuric acetate and palladium acetate in anhydrous acetonitrile or in excess enol ester solution. The products are those arising from addition of the phenyl group to the carbons not containing the ester. Thus, with vinyl acetate and phenyl mercuric acetate, the product is the enol acetate of phenyl acetaldehyde ... 

PdBr2 with an ammonium bromide in NMP provides an active catalyst enabling the oxidative insertion into the aryl enol esters, which then undergo decarbonylative (with formation of... 

In 1959 Carboni and Lindsay first reported the cycloaddition reaction between 1,2,4,5-tetrazines and alkynes or alkenes (59JA4342) and this reaction type has become a useful synthetic approach to pyridazines. In general, the reaction proceeds between 1,2,4,5-tetrazines with strongly electrophilic substituents at positions 3 and 6 (alkoxycarbonyl, carboxamido, trifluoromethyl, aryl, heteroaryl, etc.) and a variety of alkenes and alkynes, enol ethers, ketene acetals, enol esters, enamines (78HC(33)1073) or even with aldehydes and ketones (79JOC629). With alkenes 1,4-dihydropyridazines (172) are first formed, which in most cases are not isolated but are oxidized further to pyridazines (173). These are obtained directly from alkynes which are, however, less reactive in these cycloaddition reactions. In general, the overall reaction which is presented in Scheme 96 is strongly... 

Enolizable compounds can be used for Meerwein reactions provided that the keto-enol equilibrium is not too far on the side of the ketone for example, P-dicar-bonyl compounds such as acetylacetone are suitable (Citterio and Ferrario, 1983). The arylation of enol esters or ethers (10.12) affords a convenient route for arylating aldehydes and ketones at the a-carbon atom (Scheme 10-48). Silyl enol ethers [10.12, R = Si(CH3)3] can be used instead of enol ethers (Sakakura et al., 1985). The reaction is carried out in pyridine. 

Vinylic and aryl halides can be used to vinylate or arylate carboxylic esters (but not ketones) by the use of NiBr2 as a catalyst. " However, ketones have been vinylated by treating their enol acetates with vinylic bromides in the presence of a Pd... 

Several biphenylphosphines with 2 -amino substituents are also effective in arylation of ester enolates.174 Among the esters that were successfully arylated were f-butyl acetate, /-butyl propanoate, and ethyl phenylacetate. The ester enolates were generated with LiHMDS. 

A different approach towards titanium-mediated allene synthesis was used by Hayashi et al. [55], who recently reported rhodium-catalyzed enantioselective 1,6-addition reactions of aryltitanate reagents to 3-alkynyl-2-cycloalkenones 180 (Scheme 2.57). In the presence of chlorotrimethylsilane and (R)-segphos as chiral ligand, alle-nic silyl enol ethers 181 were obtained with good to excellent enantioselectivities and these can be converted further into allenic enol esters or triflates. In contrast to the corresponding copper-mediated 1,6-addition reactions (Section 2.2.2), these transformations probably proceed via alkenylrhodium species (formed by insertion of the C-C triple bond into a rhodium-aryl bond) and subsequent isomerization towards the thermodynamically more stable oxa-jt-allylrhodium intermediates [55],... 

It has been shown that the lead tetraacetate-mediated 1,2-aryl shift of various meta-substituted / -cyclohexyl aryl ketones, e.g. (10), results in excellent yields of the corresponding rearranged esters (11). A unique reaction, providing 3-hydroxy-2-arylacrylic acid ethyl esters (14), has been observed between aryl aldehydes and ethyl diazoacetate in the presence of the iron Lewis acid [rj — (C5H5)Fe(CO)2(THF)BF4], It appears that the enol esters are formed by an unusual 1,2-aryl shift from a possible intermediate (13), which in turn is formed from the reaction of the iron aldehyde complex (12) with ethyl diazoacetate (see Scheme 4). 

Regression Approaches to Structure-Activity Relationships in Miticidal 2-Aryl-l cycloalkanediones and Enol Esters... 

Optimization of biological properties in a series of miticidal and mite ovicidal 2-aryl-l,3-cycloalkanediones, Ia,b, and enol esters, II, was achieved through analog synthesis and testing supported by the development of quantitative structure/ activity trends during the course of the project. QSAR equations developed during an initial phase provided the basis for both... 

In the early 1970 s potent acaricidal activity in 3-aryl-4-hy-droxy-coumarins. III, and 2-aryl-l,3-indanediones, IV, and their enol esters was discovered at Union Carbide (1,2). Extensive synthesis and screening of analogs in the dione and enol ester series led to the field test candidates Va and Vb, active against both motile forms (mite) and eggs. Va and Vb embodied certain structural and physicochemical features shown by published QSAR studies (2,3) to be important in determining the level of activity in the 1,3-indanedione series (1) the dimension D2 across the aryl ring must be near 7A and symmetry is preferred (2) the... 

Overview of the Databank. A profile of the Phase I databank of compounds is presented in Tables II-IV 202 of the 2652 permutations possible from 12 dione moieties, 13 aryl substitution patterns, and 17 different enol ester acyl groups constituted the Phase I dataset. The structures and data given below exemplify how activity varied with structure throughout the dataset. 

Vinylic and aryl halides can be used to vinylate or arylate carboxylic esters (but not ketones) by the use of NiBr2 as a catalyst.1463 However, ketones have been vinylated by treating their enol acetates with vinylic bromides in the presence of a Pd compound catalyst.1464 Also as in 0-94, this reaction can be used to close rings.1465 In one example of this, rings have been closed by treating a diion of a dialkyl succinate with a l,cu-dihalide or ditosylate,1466, e.g. ... 

The aldol-type reaction of a cyclic enol ester, 5-methyl-2(3//)-furanone (4b), was carried out with three kinds of catalytic systems PdCl2 (PhCN)2-SnCl2, Ni(Cod)2/Ph3P-Zn, and Pd(OAc)2/PPh3-Zn. In the presence of the first catalyst, aromatic aldehydes condense with 4b to give ds-)3-acetyl-y-aryl-y-butyrolactones (47), but alkanals are mainly con-... 

An interesting organometallic reaction is the Heck Arylation (Eqn. 1) (ref. 5), which is commonly run using a Pd(OAc>2 catalyst. This reaction is used to prepare aryl enol ethers which can be valuable synthetic intermediates in that they can be hydrolyzed to aldehydes or ketones, species which can be useful themselves or as intermediates in further reactions. The influence of reaction parameters on the rate and selectivity of this reaction was reported in a series of papers (refs. 2, 3). In these a brief mention in some tables was made that Pd/C was able to catalyze this reaction but no discussion of the use of this catalyst was included. We have found, though, that this reaction is readily promoted over dispersed Pd catalysts. When run with Pd(OAc)2 as the catalyst, the Heck reaction gives as the primary products the E (1) and Z (2) aryl P enol ethers in about a 2 1 ratio. The a isomer, 3, and ester, 4, are also produced but in much smaller amounts. When the reaction is run over Pd/A Oj, the same products are obtained but the P enol ethers 1 and 2 are produced in nearly a 3 1 ratio. Table 1 lists the product compositions of these reactions. 

Carbonylation of aryl and vinyl iodides.11 Pd-catalyzed carbonylation in a basic medium of aryl or vinyl iodides containing enolizable carbonyl groups can result in reaction with the in situ generated enolate to form enol esters or enol lactones. 

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