Phosphorus pentoxide synthesis

Spath and Lederer have published a simplified synthesis of harmaline consisting in treating the acetyl derivative of 6-methoxytryptamine (XXIX) with phosphorus pentoxide in boiling xylene, the harmaline thus produced being converted into harmine by catalytic dehydrogenation at 200°. 

When distilled with phosphorus pentoxide, camphor yields cymene, and with iodine, carvacrol. Both of these bodies are para-derivatives of benzene. On oxidation with nitric acid camphor yields many acids, of which the chief are camphoric acid, CjgHjgO, camphanic acid, CjoHj O, and camphoronic acid, CgHj Og. The constitution of these acids has an important bearing on that of camphor. Many formulae have been suggested for camphor during the past few years, but that of Bredt is now universally accepted, and has received complete confirmation by Komppa s synthesis of camphoric acid. This synthesis confirms the formula for camphoric acid as—... 

Synthesis of the oxadiazolopyrimidone 358 was accomplished by reaction of the amide 357 with phosphorus pentoxide and methylsulfonic acid in low yield <1994PHA880>. Also, its benzologue 360 could only be obtained in very modest yield <2004TL8741> in the case, reaction of the benzonitrile derivative 359 with acetylhydrazine resulted in formation of the bicyclic product 360. 

A powerful and efficient method for the preparation of poly(ketone)s is the direct polycondensation of dicarboxylic acids with aromatic compounds or of aromatic carboxylic acids using phosphorus pentoxide/methanesulfonic acid (PPMA)16 or polyphosphoric acid (PPA)17 as the condensing agent and solvent. By applying both of these reagents to the synthesis of hexafluoroisopropylidene-unit-containing aromatic poly(ketone)s, various types of poly(ketone)s such as poly(ether ketone) (11), poly(ketone) (12), poly(sulfide ketone) (13), and poly-... 

Isoquinoline synthesis Bischler-Napieralski synthesis is used to synthesize isoquinolines. (3-phenylethylamine is acylated, and then cyclodehy-drated using phosphoryl chloride, phosphorus pentoxide or other Lewis acids to yield dihydroisoquinoline, which can be aromatized by dehydrogenation with palladium, for example in the synthesis of papaverine, a pharmacologically active isoquinoline alkaloid. 

A company in Budapest recently reported an alternative synthesis of quetiapine aimed to provide a more economical process (Scheme 11). They sought to avoid the use of imino chloride 32 as an intermediate, because it is rather unstable and is easily hydrolyzed. The carbamate 33 was reacted with l-(2-hydroxyethyl)pipera2ine to give crystalline 35 in 95% yield. The hydroxyethylpiperazine 35 was refluxed in thionyl chloride to provide crystalline chloroethylpiperazine 36 as the hydrochloride salt. Compound 36 was treated with phosphorous oxychloride and phosphorus pentoxide at reflux and 37 was isolated as a crystalline solid from diisopropyl ether in 75% yield. 

Oxazoles may be similarly prepared in good yields. Thus, 5-ethoxy-4-methyloxazole (173) was obtained by treating ethyl 2-formamide propionate (172) with phosphorus pentoxide in chloroform at 55°C (72JCS(P1)909,914). Known collectively as the Robinson-Gabriel synthesis, these cyclodehydrations can be effected by sulfuric acid or anhydrous hydrogen fluoride (cf CHEC 4.18). 

This synthesis of benzo[6]thiophenes is probably the most widely exploited single method for such syntheses since its introduction about 1950 by a variety of workers. It is applicable to a great number of highly substituted benzo[6]thiophenes, and intermediates are generally readily available. In 1949 Werner (49RTC509) reported the synthesis of several 3-alkyl- and 2,3-dialkyl-benzo[( ]thiophenes by cyclodehydration of arylthioacetones (99) with phosphorus pentoxide or anhydrous zinc chloride. Arylthioacetaldehydes (99 R = H, R1=H, R2 = Me, Et or Ph) have been cyclized in 65-80% yields with phosphorus pentoxide. In 1950 Tilak (50PIA(A)(32)390) introduced the polyphosphoric acid-promoted cyclization of... 

Nielsen (81CS(18)135) prepared thieno[2,3-4]pyrimidin-4(3//)-ones in 43-90% yield by heating 2-acylaminothiophene-3-carboxylates (330) with phosphorus pentoxide, N,N -dimethylcyclohexylamine and an amine hydrochloride at 180 °C. By raising the temperature to 240 °C, thieno[2,3-4]pyrimidin-4-amines (331) were obtained in 27-34% yield (Scheme 92). Phenyl N,N -dimethylphosphorodiamidate [(MeNH)2P(0)OPh], a well-known reagent for the synthesis of 3-methyl-4-oxo-3,4-dihydroquinazolines (77S180), reacts with thiophene derivatives of type (330) to give 3-methylthieno[2,3-4]pyrimidin-4(3/f)-ones (78ACS(B)303). 

BARDHAN-SENGUPTA SYNTHESIS. Phosphorus pentoxide and other powerful dehydrating agents act upon 2-beta-phenethyl-l-cyclohexanol to form oclahydrophenanlhrene compounds. 

In 1949, Werner187 announced the synthesis of several 3-alkyl- and 2,3-dialkylbenzo[6]thiophenes by the cyclodehydration of (arylthio)-acetones with phosphorus pentoxide or zinc chloride [Eq. (5)]. The reaction has since been widely used to synthesize alkyl- and aryl-substituted benzo[6]thiophenes (Table IV). Cyclodehydration proceeds most conveniently with PPA,297 298 but concentrated sulfuric acid,299,300 hydrofluoric acid, 299 aluminum chloride in benzene301 or chlorobenzene,302 zinc chloride and hydrochloric acid,303 a melt of aluminum and sodium chlorides,304 and phosphorus pentoxide in boiling o-dichlorobenzene 305 have been less widely used. 

A new metabolite from Streptomyces olivaceus has been shown to be (2S)-1-oxo-2,3-dihydropyrrolizine-3-carboxylic acid (15b) by total synthesis. The pyrrolizine ring was formed from the pyrrole (14) by stereoselective cyclization with phosphorus pentoxide in toluene in 37% yield. Partial racemization occurred during the hydrolysis of ester 15a.21... 

The preparation of azulene (Expt 6.16) provides an interesting series of rearrangements.9 The key step in the synthesis is the intramolecular insertion reaction, carried out under conditions of high dilution, of the ketocarbene (22) into the 1,2-position of the benzene ring. The unstable norcaradiene (23) which is formed then ring-opens to the bicyclic trienone (24), which isomerises to the more stable cross-conjugated trienone (25) during isolation. Dehydration of the trienone with a mixture of phosphorus pentoxide and methanesulphonic acid yields azulene. 

The analysis for (65) illustrates the value of disconnecting the bond which joins the aromatic ring to a side-chain or functional substituent. The synthesis therefore involves reaction of thiophenol with a-chloroacetone under basic conditions and cyclisation of the resulting substituted ketone by heating with phosphorus pentoxide (Expt 8.25). 

The corresponding reagents prepared from primary amines and phosphorus pentoxide were not easy to handle. Instead, a reagent mixture which was prepared from phosphorus pentoxide, primary amine hydrochloride, and N,N-dimethylcyclohexylamine was useful at 250 °C for the synthesis of N-substituted 2-aminoquinolines from the corresponding oxo compound [ 7 ]. ... 

The most striking similarity between HMPT and mixtures of phosphorus pentoxide and dialkylamines was found in a new quinoline synthesis. 2-Dialkyl-aminoquinolines were synthesized in 23-61% yield... 

Badger and Sasse have described the preparation of 2-, 3-, and 8-bromophenanthridine by the cyclization of the appropriate bromo-formamidobiphenyl with polyphosphoric acid.25 In the case of 2-bromo-2 -formamidobiphenyl a higher concentration of phosphorus pentoxide in the acid was necessary to effect ring closure, and a simple steric effect was invoked.26 Nevertheless, the Morgan-Walls reaction has been used to obtain several overcrowded compounds in which unfavorable steric factors operate. Following the original report of the preparation of the 1,10-dimethylphenanthridine (5a) by this procedure,27 several other examples have been described, notably the synthesis of the related phenanthridine (5b),28 the l,2-(6)29 and 9,10-benzophenanthridines (7),30 and the 1,2 9,10-dibenzophenanthridine (8).29... 

Nitriles can be prepared by the SN2 reaction of a cyanide ion with a primary alkyl halide. However, this limits the nitriles that can be synthesised to those having the following general formula RCH2CN. A more general synthesis of nitriles involves the dehydration of primary-amides with reagents such as thionyl chloride or phosphorus pentoxide ... 

Since Hausmanrfs and Kipping s initial studies, the synthesis of truxene from 1-indanone has been carried out many times under a wide variety of conditions. Reagents that have been reported to promote this trimerization are generally either strong protic acids or Lewis acids and include hydrochloric acid [15], hydroiodic acid [15], phosphorus pentoxide [15], zinc dust [15], sulfuric acid [17], phosphorus pentachloride [17], zinc chloride in acetic acid [18],... 

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