Synthesis esters from carboxylic

A new method for the transformation of —CO2H to —H has been attained by formation of the selenol ester from carboxylic acid, followed by its reduction. Owing to high chemoselectivity and mild reaction conditions, this method is often utilized for the synthesis of natural products (equation 21). ... 

Formation of the 3j8-acetoxyeti-5-enic esters has been used to obtain optically pure samples of (+)- and (—)-tran5-verbenoP and to resolve an alcohol intermediate in the synthesis of the witchweed seed germination stimulant (+)-strigol. A general synthesis of thiol esters from carboxylic acids, exemplified by the formation of the n-propylthio-, isopropylthio-, and t-butylthio-esters of cholic acid, comprises reaction with diethyl chlorophosphate-triethylamine, followed by the thallium(i) salt of the appropriate thiol. 

Yokoyama, Y., Shioiri, T., and Yamada, S., Phosphorus in organic synthesis. Part 16. Diphenyl phosphorazidate (DPPA) and diethyl phosphorocyanidate (DEPC). Two new reagents for the preparation of thiol esters from carboxylic acids and thiols, Chem. Pharm. Bull., 25, 2423, 1977. 

Olofsson and coworkers have developed a general and high-yielding synthesis of various diaryl ethers 681 using the reaction of diaryliodonium salts with phenols under basic conditions (Scheme 3.273) [874]. The scope of products includes bulky orf/io-substituted diaryl ethers, which are difficult to obtain by metal-catalyzed protocols. A similar procedure has been used for the metal-free synthesis of aryl esters from carboxylic acids and diaryliodonium salts [875]. 

Triethylamine sec-butyl chloroformate Modified Arndt-Eistert synthesis Homologous carboxylic acid esters from carboxylic acids... 

Allyl-based protecting groups have become a popular choice for the protection of carboxylic acids, especially in peptide and glycopeptide synthesis. Formation of allyl esters from carboxylic acids has typically been carried out using allyl alcohol/DCC/DMAP,f i allyl bromide/Cs2C03,f and Fischer esterification conditions. Additionally, methyl and ethyl esters have been transesterified to allyl esters using NaH, DBU/LiBr, and Ti(Oi-Pr)4 as catalysts.f" " " ... 

Synthesis of yJ-ketocarboxylic acid esters from carboxylic acid esters... 

Diazomethane is used in the synthesis of methyl esters from carboxylic acids. However, it is exceedingly toxic and highly explosive in the gaseous state (b.p. -24°C) and in concentrated solutions. It is therefore usually generated in dilute ether solution and immediately allowed to react with the acid. This method is very mild and permits esterification of molecules possessing acid- and base-sensitive functional groups, as shown in the following example. 

DCC is also used for the synthesis of esters from carboxylic acids and alcohols. Write a mechanism. 

Synthesis of Esters from Carboxylic Acids, Esterification (eq 1) proceeds by activation of the carboxyl component using a 2-halopyridinium salt (2 X = Cl, Y = I or X = F, Y = OTs) and (1) (2,4 equiv) in the presence of an alcohol. The best solvents for this process are CH2CI2 or MeCN, but a range of other solvents may also be used. 

General. Diphenyl phosphorazidate is a readily available, nonexplosive, and relatively stable azide widely used as a reagent in peptide synthesis, " and as a versatile reagent in a wide array of organic transformations. DPPA has been successfully utilized in the synthesis of a-amino acids and o-aryl carboxylic acids direct preparation of thiol esters from carboxylic acids and thiols the stereospecific preparation of alkyl azides and the phosphorylation of alcohols and amines The application of DPPA in a modified Curtius reaction permits a simple one-step conversion of carboxylic acids to urethanes under mild reaction conditions. DPPA acts as a nitrene source, and can undergo 1,3-dipolar cycloaddition reactions. The Curtius degradation of carboxylic acids in the presence of f-butanol gives the Boc-protected amine directly (eq 1). 

Methylsulfinyl enolates are more recently developed d -reagents. They are readily prepared from carboxylic esters and dimsyl anion. Methanesulfenic acid can be eliminated thermally after the condensation has taken place. An example is found in Bartlett s Brefeldin synthesis (P.A. Bartlett. 1978). 

The main example of a category I indole synthesis is the Hemetsberger procedure for preparation of indole-2-carboxylate esters from ot-azidocinna-mates[l]. The procedure involves condensation of an aromatic aldehyde with an azidoacetate ester, followed by thermolysis of the resulting a-azidocinna-mate. The conditions used for the base-catalysed condensation are critical since the azidoacetate enolate can decompose by elimination of nitrogen. Conditions developed by Moody usually give good yields[2]. This involves slow addition of the aldehyde and 3-5 equiv. of the azide to a cold solution of sodium ethoxide. While the thermolysis might be viewed as a nitrene insertion reaction, it has been demonstrated that azirine intermediates can be isolated at intermediate temperatures[3]. 

Garboxylation Reaction. The carboxylation reaction represents the conversion of acetylene and olefins into carboxyHc acids (qv) or their derivatives. The industrially important Reppe process is used in the synthesis of P-unsaturated esters from acetylene. Nickel carbonyl is the catalyst of choice (134). 

Notable examples of general synthetic procedures in Volume 47 include the synthesis of aromatic aldehydes (from dichloro-methyl methyl ether), aliphatic aldehydes (from alkyl halides and trimethylamine oxide and by oxidation of alcohols using dimethyl sulfoxide, dicyclohexylcarbodiimide, and pyridinum trifluoro-acetate the latter method is particularly useful since the conditions are so mild), carbethoxycycloalkanones (from sodium hydride, diethyl carbonate, and the cycloalkanone), m-dialkylbenzenes (from the />-isomer by isomerization with hydrogen fluoride and boron trifluoride), and the deamination of amines (by conversion to the nitrosoamide and thermolysis to the ester). Other general methods are represented by the synthesis of 1 J-difluoroolefins (from sodium chlorodifluoroacetate, triphenyl phosphine, and an aldehyde or ketone), the nitration of aromatic rings (with ni-tronium tetrafluoroborate), the reductive methylation of aromatic nitro compounds (with formaldehyde and hydrogen), the synthesis of dialkyl ketones (from carboxylic acids and iron powder), and the preparation of 1-substituted cyclopropanols (from the condensation of a 1,3-dichloro-2-propanol derivative and ethyl-... 

A direct catalytic conversion of esters, lactones, and carboxylic acids to oxazolines was efficiently achieved by treatment with amino alcohols in the presence of the tetranuclear zinc cluster Zn4(0C0CF3)60 as catalyst, essential for condensation and cyclodehydration reactions. For example, the use of (5)-valinol allowed the easy synthesis of oxazolines 125 and 126 in satisfactory yields <06CC2711>. A one-pot direct preparation of various 2-substituted oxazolines (as well as benzoxazoles and oxadiazoles) was also performed from carboxylic acids and amino alcohols (or aminophenols or benzhydrazide) using Deoxo-Fluor reagent <06TL6497>. 

The palladium-catalyzed Heck carbonylation reaction is a powerful means of generating amides, esters, and carboxylic acids from aryl halides or pseudohalides [28]. The development of rapid, reliable, and convenient procedures for the introduction of carbonyl groups is important for the development of high throughput chemistry in general and high-speed microwave-mediated chemistry in particular. Unfortunately, the traditional method of introducing carbon monoxide into a reaction mixture via a balloon or gas tube is not practical because of the special requirements of microwave synthesis. 

Due to its wide application in peptide synthesis, 1-hydroxybenzotriazole 1001 is the most commonly used benzo-triazole derivative with hundreds of references in Chemical Abstracts each year. Utility of compound 1001 comes from its readiness to form esters with carboxylic acids in the presence of dehydrating agents (DAs). Obtained esters 1002 react eagerly with amines to produce amides 1003 in high yields (Scheme 165). More details about this application are given in Section 5.01.12. 

In 2003, Devocelle and colleagues reported a convenient two-step procedure for the parallel synthesis of hydroxamic acids (or O-protected hydroxamic acids 207) from carboxylic acids and hydroxylamine. It involves the formation of a polymer-bound HOBt active ester 206 from 204 and the acid 205 and subsequent reaction with O-protected or free hydroxylamine (Scheme 89). The use of free hydroxylamine leads to increased yields while maintaining high purities. Recycling of the exhausted resin 204 to prodnce the same or a different hydroxamic acid has been achieved by a three-step protocol, which is easily amenable to automation and cost-economical. 

The synthesis of pyrimidine carboxylic esters can be achieved by palladium-catalyzed carbonylation of halopyrimi-dines with carbon monoxide and an alcohol < 1999T405, 2001S1098>, as shown by the formation of a variety of esters 271 from 2-chloro-4,6-dimethoxypyrimidine 270 <1999T405>. 

Synthesis of esters and anhydrides from carboxylic acids. 

On the pages which follow, general methods are illustrated for the synthesis of a wide variety of classes of organic compounds including acyl isocyanates (from amides and oxalyl chloride p. 16), epoxides (from reductive coupling of aromatic aldehydes by hexamethylphosphorous triamide p. 31), a-fluoro acids (from 1-alkenes p. 37), 0-lactams (from olefins and chlorosulfonyl isocyanate p. 51), 1 y3,5-triketones (from dianions of 1,3-diketones and esters p. 57), sulfinate esters (from disulfides, alcohols, and lead tetraacetate p. 62), carboxylic acids (from carbonylation of alcohols or olefins via carbonium-ion intermediates p. 72), sulfoxides (from sulfides and sodium periodate p. 78), carbazoles... 

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