Chlorination phosphorus oxychloride

Treatment of pyridazine 1-oxides with phosphorus oxychloride results in a-chlorination with respect to the N-oxide group, with simultaneous deoxygenation. When the a-position is blocked, substitution occurs at the y-position. 3-Methoxypyridazine 1-oxide, for example, is converted into 6-chloro-3-methoxypyridazine and 3,6-dimethylpyridazine 1-oxide into 4-chloro-3,6-dimethylpyridazine. 

The second most important nucleophilic substitution in pyridazine A-oxides is the replacement of a nitro group. Nitro groups at the 3-, 4-, 5- and 6-position are easily substituted thermally with a chlorine or bromine atom, using acetyl chloride or hydrobromic acid respectively. Phosphorus oxychloride and benzoyl chloride are used less frequently for this purpose. Nitro groups in nitropyridazine A-oxides are easily replaced by alkoxide. The... 

Bischloromethyl ether has been prepared by saturation of formalin with dry hydrogen chloride by the reaction of paraformaldehyde with phosphorus trichloride or phosphorus oxychloride, by solution of paraformaldehyde in concentrated sulfuric acid and treatment with ammonium chloride or dry hydrogen chloride, and by suspension of paraformaldehyde in seventy or eighty percent sulfuric acid and treatment with chlorosulfonic acid. It is formed together with the asymmetrical isomer when methyl ether is chlorinated and when paraformaldehyde is treated with chlorosulfonic acid. The present method has been published. ... 

The vinylic fluorine of perfluoroisobutylene can be replaced with chlorine by using phosphorus oxychloride or henzoyl chloride however, somewhat different mixtures result from these two chlorinating agents [72] (equation 59). 

Chloroquinazoline can be isolated, at best in 40% yield, by boiling 2-hydroxyquinazoline with phosphorus pentachloride in phosphorus oxychloride for 45 min, and attempts to improve this yield have proved fruitless. The yields are much higher when an aryl group is in position 4 w hich suggests an attack of the 3,4-double bond in 2-hydroxy- and 2-chloro-quinazolines by the chlorinating agent. 

Dihydro-l-oxo-3,4-benz-j8-carboline (166) reacted with phosphorus oxychloride and one mole of phosphorus pentachloride at 110° to give l-chloro-3,4-benz-j8-carboline (264). When, however, more than one mole of phosphorus pentachloride was used 265 was obtained, presumably by chlorination of 264. This chlorinating action of phosphorus pentachloride is analogous to that observed when an... 

The hydroxyl group is then replaced by chlorine by means of phosphorus oxychloride (70). Displacement of the reactive halogen at the 4 position by means of the aliphatic diamine, 71, yields the synthetic antimalarial agent chloroquine (72). ... 

A piridazine ring forms the nucleus for a rather unusual nontricyclic antidepre.ssant. Condensation of the keto ester 136 with hydrazine leads to the cyclic hydrazide 137. Oxidation, for example with bromine, gives the corresponding pyridazone 138. The oxygen is then replaced by chlorine by reaction with phosphorus oxychloride. Displacement of the halogen in 139 with N-ethylami-nomorpholine affords minaprine 140 [30]. 

D) Ethyl 2-Chloro-6-(n)-Propyl-lsonicotinate The 40 grams of the acid just obtained are treated with 80 grirrTs of phosphorus oxychloride and 95 grams of phosphorus pentachioride. The phosphorus oxychloride is distilled and the reaction mixture is treated with 400 grams of absolute alcohol. 40 grams of chlorinated ester, having a BP of 115°-116°C/2 mm, are obtained. 

Hydrazinotriazine 749 was prepared by the condensation of the respective quinone with thiosemicarbazide followed by sequential cyclization, chlorination with phosphorus oxychloride, and reaction with hydrazine (88JHC1139). Cyclocondensation of 749 with formic acid or carbon disulfide gave triazolotriazines 750 (88JHC1139) (Scheme 156). 

Dangerous materials may require special equipment. Chlorination with gaseous chlorine requires quite expensive storage facilities. Chlorination with chlorine, thionyl chloride, sulphuryl chloride, phosphorus oxychloride, phosphorus trichloride, or phosphorus pentachloride, all of which are fairly hazardous, requires off-gas treatment. Some of these reactants can be recycled. Pyrophoric solids such as hydrogenation catalysts, anhydrous aluminium trichloride for Friedel-Crafts reactions, or hydrides used as reducing agents should usually be handled using special facilities. Therefore, all of the above proce.sses are usually carried out in dedicated plants. 

Treatment of 8 with phosphorus oxychloride leads to replacement of the hydroxyl group by chlorine... 

Niclosamide was synthesized industrially by first chlorinating salicylic acid in chlorobenzene to yield 5-chlorosalicylic acid (I). Control of the amount of chlorine introduced is essential at this step, because an excess halogen leads to the formation of 3,5-dichlorosalicylic acid in addition to (I). When (I) is heated with 2-chloro-4-nitroaniline (II) in chlorobenzene (102— 104°C) in the presence of phosphorus oxychloride, niclosamide (III) is obtained [7]. 

Used industrially for the manufacture of phosphorus oxychloride, phosphorus pentachlor-ide, phosphites, organophosphorus pesticides, surfactants, gasoline additives, plasticizers, dyestuffs used as a chlorinating agent and catalyst. Used to prepare rubber surfaces for electrodeposition of metal. Used as an ingredient of textile finishing agents. 

Yoon and co-workers prepared perchlorinated pyridazines via chlorination of pyridazone 164 <00JHC1049>. They reported that the chlorination of 164 using phosphorus oxychloride gave only 165 in 81% yield. However, a solution of phosphorus pentachloride and cyclohexane provided only 166 in 81% yield. Furthermore, other reaction conditions gave a mixture of 165 and 166 in varying ratios depending upon the solvent, temperature, and reaction time. 

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