Esters from acyl peroxides

Carboxylic acid esters from acyl peroxides R GO 00 OC R RCOOR s. 18,320... 

Carboxylic acid esters from acyl peroxides... 

Type C Syntheses [N—C—N—C—S]. From amidino-thiono-compounds. The general synthesis of 1,2,4-thiadiazoles by the oxidative cyclization of compounds incorporating the amidino-thiono-grouping [—C(=NH)NHCS—] has been extended by the synthesis of l-acyl(and -sulphonyl)-3-thioacyl-guanidines (41) from acyl- or sulphonyl-guanidines (40) with thioacid O-esters in the presence of sodium hydride, followed by their oxidation with hydrogen peroxide in pyridine. 

For the mechanism of azolide hydrolysis under specific conditions like, for example, in micelles,[24] in the presence of cycloamyloses,[25] or transition metals,[26] see the references noted and the literature cited therein. Thorough investigation of the hydrolysis of azolides is certainly important for studying the reactivity of those compounds in chemical and biochemical systems.[27] On the other hand, from the point of view of synthetic chemistry, interest is centred instead on die potential for chemical transformations e.g., alcoholysis to esters, aminolysis to amides or peptides, acylation of carboxylic acids to anhydrides and of peroxides to peroxycarboxylic acids, as well as certain C-acylations and a variety of other preparative applications. 

Peracids can also be prepared from reaction of hydrogen peroxide with acyl halides, anhydrides, amides, dialkyl phosphates, N-acylimidazoles, aromatic aldehydes, lipase catalysis and esters (Figure 2.38).100-107... 

Not only acyl, but also alkoxycarbonyl radicals can be generated from the corresponding xanthates, and their capture by addition to olefins produces esters or lactones, depending on whether the addition reaction is inter-or intra-molecular [53]. Grainger and Innocenti found that xanthates derived from carbamoyl chlorides were difficult to make and handle but, by replacing the xanthate salt by a dithiocarbamate, better precursors for the desired aminocarbonyl radicals were obtained [54]. Irradiation with a tungsten lamp proved more efficient than chemical initiation with lauroyl peroxide and lactams of various sizes could be readily obtained, as illustrated by the... 

Subsequent loss of carbon dioxide from the alkyl acyl carbonate may occur. It was estimated, in the decomposition of Ira 5-4-I-butylcyclohexanecarbonyl peroxide in carbon tetrachloride, that two-thirds of the reaction occurs via the inversion process and one-third by the homolytic process It is suspected that inversion may be major decomposition route for other secondary aliphatic diacyl peroxides as well as for some bridgehead peroxides . Confirmation that the inversion process does contribute to the decomposition of i-butyryl peroxide is given . Further evidence for the inversion process is found in the volumes of activation for the decomposition of i-butyryl peroxide in isooctane at 50° and ram-4-r-butylcyclohexanecarbonyl peroxide in -butane at 40 °C. The AF values are —5.1 and —4.1 cm. mole , respectively. These values may be compared to the positive values of A F for benzoyl peroxide (Table 77) where there is no inversion. While the transition states for homolytic decomposition and inversion for secondary and tertiary diacyl peroxides are both polar, it is felt that the transition state for inversion is more polar . The extent of contribution of structure (V) to the transition state in the homolytic decomposition must be held with considerable reservation. In general much of the reported data for the decomposition of secondary and tertiary alkyl diacyl peroxides should be viewed with some scepticism unless efforts were made to assess the importance of the inversion process. One clue that may be used to evaluate the importance of this process is the yield of ester, which is a product of this reaction. 

The formation of the A-oxide was avoided when trifluoroperacetic acid was reacted with the trifluoroacetate of acetyltropenol (67a, b). Recently it has been shown that hydrogen peroxide in formic acid gave a still better yield of epoxides without detectable A-oxides (67b). Acetylscopine (LXV) has been isolated as the picrate, (m.p. 212°) (67a), identical with the sample obtained from scopine (XLa) (75) hydrochloride by acetyl chloride (67a). The conversion of acetylscopine into ( ) scopolamine (LXV->XLb) has been realized (67b). Hydrolysis with A NaOH in acetone led to scopine (XLa), the hydrochloride of which was acylated, in turn, with acetyltropoyl chloride in nitrobenzene to acetylscopolamine besides a number of by-products. Separation was achieved using cellulose powder chromatography in butanol-A HCl. Acid hydrolysis of this ester with 2A HCl led to ( ) scopolamine hydrochloride (XLb) (67b) identical with the natural... 

Thloglycosides can be made from protected glycosyl fluorides by use of thiols in the presence of boron trlfluorlde (as can acyl esters, phosphates, peroxides and various nitrogenous corn-pounds) or from compounds with free anomerlc hydroxy groups,by... 

Other Methods.— The palladium-catalysed oxidation of terminal olefins to methyl ketones is very efficient using 30% hydrogen peroxide in acetic acid or t-butyl alcohol. The method offers advantages in that conversions are usually high, aldehyde production is very low, and the method requires only very low concentrations of palladium [20—40p.p.m, as palladium(li) acetate], fi-Hydroxy-o-nitrophenylselenides, or their O-acyl derivatives, on oxidation with hydrogen peroxide undergo elimination to form ketones or enol esters [equation (10)]. The starting materials can be prepared easily from alkenes via their epoxides. 

The acid portion of the ester 1 was prepared from (5)-citronelhc acid, by way of the Evans imide 7. Methylation proceeded with high diasterocontrol, to give 8. Functional group manipulation provided the imide 9. Alkylation then led to 10, again with high diaste-reocontrol. in each case, care had to be taken in the further processing of the a-chiral acyl oxazolidinones. Direct NaBH reduction of 8 delivered the primary alcohol. To prepare the acid 10, the alkylated acyl oxazolidinone was hydrolyzed with alkaline hydrogen peroxide. 

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