Acyl chlorides synthesis, thionyl chloride

Synthesis of Acyl Chlorides Using Thionyl Chloride... 

A MECHANISM FOR THE REACTION ] Synthesis of Acyl Chlorides Using Thionyl Chloride 787... 

The Hurd-Mori 1,2,3-thiadiazole synthesis is the reaction of thionyl chloride with the N-acylated or tosylated hydrazone derivatives 1 to provide the 1,2,3-thiadiazole 4 in one simple step. ... 

A general synthesis of phosphonyl thiadiazoles has been recently disclosed starting from the hydrazone 55. The hydrazones were prepared from acyl phosphonates, which in turn were made from acid chlorides 54. Thus treatment of the hydrazone 55 with thionyl chloride in the presence of DMF and sodium chloride provided the thiadiazoles in... 

Synthesis of the remaining half of the molecule starts with the formation of the monomethyl ether (9) from orcinol (8). The carbon atom that is to serve as the bridge is introduced as an aldehyde by formylation with zinc cyanide and hydrochloric acid (10). The phenol is then protected as the acetate. Successive oxidation and treatment with thionyl chloride affords the protected acid chloride (11). Acylation of the free phenol group in 7 by means of 11 affords the ester, 12. The ester is then rearranged by an ortho-Fries reaction (catalyzed by either titanium... 

The most common, convenient, and versatile synthesis of 1,2,3-thiadiazoles is the one discovered by Hurd and Mori in 1955 <1955JA5359>. This involves the reaction of thionyl chloride with acyl- or phenylsulfonylhydrazones or semicarbazones 54 that contain an a-methylene group this reaction affords a wide range of 1,2,3-thiadiazoles 55 (Equation 15). 

Although introduced over 40 years ago, Hurd and Mori s synthesis of 1,2,3-thiadiazoles remains the most widely used for the synthesis of 1,2,3-thiadiazoles. The simplicity of the method has contributed to its popularity. A variety of ketones and aldehydes have been converted into their corresponding hydrazones (tosyl and acyl), and thioamides have been converted into thio-carbazonate esters. The carbonyl derivatives are then treated with thionyl chloride to yield 1,2,3-thiadiazoles in high yields. When one is faced with the task of synthesizing new 1,2,3-thiadiazoles, Hurd and Mori s method should always receive attention. 

A number of recent papers have appeared in the literature related to the synthesis of saturated 5(477)-oxazolones that were not yet covered in our contribution. 4-Acyl-2,4-dialkyl-5(477)-oxazolones 776 have been obtained from A-acylglycines. Thus, cyclization of an A-acylglycine in the presence of thionyl chloride affords a monosubstituted 5(477)-oxazolone 775. Acylation of 775 with an aroyl chloride in the presence of magnesium chloride occurred at C-4 to produce 776. Hydrolysis and decarboxylation of 776 gave the A-acylamino ketones 777 that are valuable intermediates to prepare oxazoles 778 (Scheme 7.236). 

The electron-rich thiophene ring system can be annelated by intramolecular Friedel-Crafts acylation reactions to give fused thiophenes <99IJC648, 99JMC2774>. The synthesis of a thiophene isostere of ninhydrin involved an intramolecular Friedel-Crafts acylation <99SL1450>. Specifically, treatment of thiophene 86 with thionyl chloride followed by aluminum chloride gave annelated thiophene 87. The synthesis of isothianinhydrin 88 was then accomplished in six steps from 87. 

In one synthesis of this drug, L-proline (11-2) is acylated with the acid chloride (11-1) obtained from the addition of hydrogen chloride to the double bond in methacrylic acid followed by reaction with thionyl chloride to give amide (11-3) as a mixture of diastereomers. The pure 2S isomer is then isolated from the mixture by fractionation as the dicyclohexylamine salt. Treatment of that compound with ammonium hydrosulfide leads to the displacement of chlorine by a thiol group and the formation of captopril (11-4) [13]. 

Acid esters are useful synthetic intermediates. For example, their use in the synthesis of long-chain dicarboxylic esters by electrolytic (anodic) synthesis has already been noted (Expt 5.131). Furthermore the reaction of the acid ester with thionyl chloride in the usual way will convert the carboxylic acid grouping to an acyl chloride group thus yielding the synthetically useful ester-acyl chloride the products are usually purified by distillation under reduced pressure. 

The traditional synthesis of acyl chlorides based on the reaction of carboxylic acids with thionyl chloride has been improved in various techniques. Triphenylphosphine is a cata-... 

Synthesis of Acid Chlorides Acid chlorides (acyl chlorides) are synthesized from the corresponding carboxylic acids using a variety of reagents. Thionyl chloride (SOCl2) and oxalyl chloride (COCl)2 are the most convenient reagents because they produce only gaseous side products (Section 20-15). 

The synthesis of DMAP, the useful acylation catalyst mentioned in Chapters 8 and 12, is carried out by initial attack of thionyl chloride (SOCI2) on pyridine. Suggest how the reactions might proceed. 

N-Acylsaccharins (13) possess a certain potential as acylating agents. They will acylate amines, but will react with water or alcohols only when acid or base is present.167 The method was used to acylate a-amino-penicillanic acid.170 Micheel162-165 has based a peptide (38) synthesis on the acyl transfer from 31 [Z = carbobenzoxy, obtained through reaction with DCC or with pseudosaccharin chloride (6) or with thionyl chloride and imidazole] to amino acids. Pseudosaccharin anhydride 323, lee js thg product of a condensation between 6 and 1, mostly from hydrolysis of 6. Formation of 32 tends to occur in nonprotic solvents with base catalysis, even when practical precautions are taken to exclude moisture. Water and protic solvents seem to shield the anion 19 and prevent attack on 6. 

---