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Phosphonium salt acylation

The submitters have shown that these reactions proceed by dehydro-chlorination of the acid chloride to the ketene, which is then trapped by reaction with the phosphorane. The resulting betaine decomposes to the allenic ester via an oxaphosphetane. In contrast, the reaction of acid chlorides with 2 equivalents of phosphoranes involves initial acylation of the phosphorane followed by proton elimination from the phosphonium salt. ... [Pg.208]

A one-pot synthesis of alkyl perfluoroalkyl ketones has been developed. Phosphoranes, generated in situ, are acylated with a perfluoroacyl anhydnde, and the resultmg phosphonium salts are hydrolyzed with alkali [4S (equation 48) Hydrolysis of a carbon-sulfur bond in 2-chloro-2,4,4-trifluoro-1,3-dithietane-S-trioxide, which can be obtained from 2,2,4,4-tetrachloro-l,3-dithietane by fluor-mation with antimony trifluoride followed by selective oxidations, opens the nng to produce 2-chloro-1,1,2-trifluorodimethyl sulfone [49] (equation 49)... [Pg.437]

Fluonnated ylides have also been prepared in such a way that fluonne is incorporated at the carhon P to the carbamonic carbon Vanous fluoroalkyl iodides were heated with tnphenylphosphine in the absence of solvent to form the necessary phosphonium salts Direct deprotonation with butyUithium or hthium dusopropy-lamide did not lead to yhde formation, rather, deprotonation was accomparued by loss of fluonde ion Flowever deprotonation with hydrated potassium carbonate in thoxane was successful and resulted in fluoroolefin yields of45-S0% [59] (equation 54) P-Fluorinated ylides may also be prepared by the reaction of an isopropyli-denetnphenylphosphine yhde with a perfluoroalkanoyl anhydnde The intermediate acyl phosphonium salt can undergo further reaction with methylene tnphenylphosphorane and phenyUithium to form a new yhde, which can then be used in a Wittig olefination procedure [60] (equation 55) or can react with a nucleophile [6/j such as an acetyhde to form a fluonnated enyne [62] (equation 56)... [Pg.591]

Weik and Rademann have described the use of phosphoranes as polymer-bound acylation equivalents [65]. The authors chose a norstatine isostere as a synthetic target and employed classical polymer-bound triphenylphosphine in their studies (Scheme 7.54). Initial alkylation of the polymer-supported reagent was achieved with bromoacetonitrile under microwave irradiation. Simple treatment with triethyl-amine transformed the polymer-bound phosphonium salt into the corresponding stable phosphorane, which could be efficiently coupled with various protected amino acids. In this acylation step, the exclusion of water was crucial. [Pg.333]

Bis-acyl sulphides are obtained in only low yield by the standard reaction of sodium sulphide with an acyl chloride, but the addition of Adogen results in their viable synthesis with yields >70%. Examples using quaternary phosphonium salts provide the optimum yields (> 90%) [63]. Similarly, thiophenols have been benzoylated using benzoyl chloride under basic conditions in the presence of ammonium salts [12]. [Pg.141]

The acyl radical equivalents formed by the electroreduction of acyl phosphonium salts have an interesting reactivity and the electroreduction of nonconjugated olefinic acids yields intramolecular coupling products (Scheme 28) [11, 54, 55]. [Pg.209]

A recent halogen-free benzofuran that shares many structural features with its predecessor shows activity in controlling arrythmias. The synthesis starts with an unusual scheme for building the furan ring. Reaction of the benzyl bromide (2-1) with triphenylphosphine leads to phosphonium salt (2-2). Treatment of the salt with valeryl chloride in the presence of pyridine results in acylation on the now highly activated benzylic carbon (2-3). That product cyclizes to the benzofuran (2-4) on heating with expulsion of triphenylphosphine. Friedel-Crafts acylation of (2-4) with anisoyl chloride in the presence of stannic chloride proceeds on the... [Pg.384]

The modified cephalosporin ceftobiprole (31-8), yet another compound that contains a double bond at the ring carbon, though in this case with a rather complex extended side chain, has shown activity in the clinic against some strains of multidrug resistant bacteria. The synthesis starts with the weU-precedented acylation of the cephalosporin (31-2), available in several steps from the commercially available 7-acetoxy cephalosporanic acid, with the activated thiadiazole carboxylic acid (31-1). The hydroxyl group in the product (31-3) is then oxidized with manganese dioxide to afford the corresponding aldehyde (31-4). This product is then condensed with the fcw-pyrrolidyl phosphonium salt (31-5), itself protected with the... [Pg.565]

The trimethylsilylated ylides (1), easily generated from trimethyl chlorosilane and ylides, react with aldehydes 2 to form vi-nylsilanes 3 (2,3). The vinylphosphonium silanolates 4 are also formed. Compounds 3 are versatile reagents for further reactions (4). The ylide J (with R1 =H) reacts with aldehydes 2 to give the dienes j). The oxidation of with the adduct 6, from triphenyl-phosphite and ozone, gives access to a generaT synthesis of acyl-silanes (trimethylsilylketones) (2). The silylated ylides react to form phosphonium salts 7 with halogen compounds. The salts 7.can be desilylated by fluorine ions. The disubstituted ylides JO Tormed can be converted in statu nascendi with aldehydes V[ into the tris-substituted olefin J2 (2,3). In the case of R3-I, vinyl... [Pg.25]

In the first step (ij) the ylides 3 (R1 = H) can be alkylated with primary alkylhalogenide or with ethyl bromoacetate they can also be acylated with acetic anhydride in a reverse addition operation, (In spite of trans-ylidation process, the acylated phosphonium salt can be easily purified by liquid -liquid extraction with bases). Semi-stabilized ylides3(R1= 0) are not reactive enough to be alkylated or acylated in this way. [Pg.60]

Syntheses of 2-substituted indoles from (2-aminobenzyl)triphenylphosphonium salts have been achieved either by cyclization with carboxylic acid anhydrides in the presence of triethylamine, or acyl chlorides in 2,6-lutidine <02TL2885>. In a related study, the acylated indoles 65 have been prepared from the phosphonium salts 66 in a process involving extrusion of a one-carbon fragment. A mechanistic rationale for these findings was also provided by the authors <02TL8893>. [Pg.148]

The elimination of the stable PhjPO from enol phosphonium salts 36 can be induced thermally to yield acetylenes. The phosphonium salts are readily prepared on acylation of phosphoranes (equation 104). The pyrolysis of 36 is effective provided that neither nor R is hydrogen, and that R or R is phenyl or acyl, or the... [Pg.265]

Eq. 6), allowing a regiospecific synthesis of 5-alkylimidazoles. In a rather similar reaction, acyl vinyl phosphonium salts can be condensed with amidines to give imidazolyl phosphonium salts (22), presumably by way of 21 (Eq. 7). °... [Pg.252]


See other pages where Phosphonium salt acylation is mentioned: [Pg.155]    [Pg.24]    [Pg.209]    [Pg.23]    [Pg.932]    [Pg.99]    [Pg.83]    [Pg.104]    [Pg.150]    [Pg.154]    [Pg.156]    [Pg.550]    [Pg.12]    [Pg.105]    [Pg.139]    [Pg.139]    [Pg.146]    [Pg.205]    [Pg.291]    [Pg.97]    [Pg.425]    [Pg.538]    [Pg.547]    [Pg.776]    [Pg.778]    [Pg.840]    [Pg.36]    [Pg.20]    [Pg.23]    [Pg.175]   
See also in sourсe #XX -- [ Pg.743 ]




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Acyl salts

Acylation salts

Phosphonium salts

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