Oxidative coupling pyrroles

The oxidative coupling of thiophene, furan[338] and pyrrole[339,340] is also possible. The following order of reactivity was observed in the coupling of substituted furans[338] R = H > Me > CHO > CO Me > CH(OAc)i > CO2H. The cross-coupling of furans and thiophenes with arene is possible, and 4-phenylfurfural (397) is the main product of the cross-coupling of furfural and benzene[341]. 

Polyheterocycles. Heterocychc monomers such as pyrrole and thiophene form hiUy conjugated polymers (4) with the potential for doped conductivity when polymerization occurs in the 2, 5 positions as shown in equation 6. The heterocycle monomers can be polymerized by an oxidative coupling mechanism, which can be initiated by either chemical or electrochemical means. Similar methods have been used to synthesize poly(p-phenylenes). 

The oxidative coupling of 3,4-dimethyl-or 3,4-diphenyl-isoxazolin-5-one by activated Mn02 produced a 4,4 -bis(isoxazolinone) (519) and 2,4 -bis(isoxazolinone) (520). Hydrogenation of (519) over Pt02/H0Ac produced a pyrrole derivative while similar reaction of (520) produced an isomeric pyrrole (80JHC763). These reactions are shown in Scheme 152. 

The synthesis can be conducted both in solution and without solvents. The reaction in solvent (e.g., methanol, ethanol, dioxane, dimethylformamide) is recommended for volatile 1,3-diynes and amines in this case the pyrroles are purer and the yield is higher. With disubstituted diacetylenes, ammonia and primary alkyl- and arylamines produce 1,2,3-trisubstituted pyrroles under the same conditions (65CB98 71MI1). Since disubstituted diacetylenes are readily obtained by oxidative coupling of acetylenes (98MI2), this reaction provides a preparative route to a wide range of pyrroles. 

Poly(iV-substituted dithieno[3,2-3 2, 3 -rf pyrroles (PDTPs) 167a,b) <2005MM4545>, a class of soluble (chiral) conjugated polymers with a stable oxidized state, were prepared by an oxidative coupling by FeClj in chloroform under an argon atmosphere. The crude material was reduced with hydrazine to afford compound 167 (Scheme 19) <2005MM4545>. 

A Sml2-induced reductive cyclization of (V-(alkylketo)pyrroles provided an entry into medium ring 1,2-annelated pyrroles <06EJO4989>. An oxidative radical alkylation of pyrroles with xanthates promoted by triethylborane provided access to a-(pyrrol-2-yl)carboxylic acid derivatives <06TL2517>. An oxidative coupling of pyrroles promoted by a hypervalent iodine(III) reagent provided bipyrroles directly <060L2007>. 

In most cases, the oxidative addition process consumes stoichiometric amount of Pd(OAc>2. One of the earliest examples of the use of palladium in pyrrole chemistry was the Pd(0Ac)2 induced oxidative coupling of A-methylpyrrole with styrene to afford a mixture of olefins 18 and 19 in low yield based on palladium acetate [28]. 

A new pyrrole ring synthesis developed by Arcadi involves the addition of ammonia or benzylamine to 4-pentynones, the latter of which are conveniently prepared via a palladium oxidative coupling sequence as shown below for the synthesis of 40 [39,40]. 

Srinivasan found that the typical stoichiometric Pd(OAc)2 conditions effect cyclization of 2-(N-arylaminomethyl)indoles to aryl-fused p-carbolines in low yield [e.g., 51 to 52] [73]. Similar to the chemistry observed with N-(phenylsulfonyl)pyrrole, 1,4-naphthoquinone also undergoes Pd(OAc)2 oxidative coupling with A-(phenylsulfonyl)indole to give 53 in 68% yield [74],... 

A)-Ketorolac 132, a nonsteroidal anti-inflammatory dmg (NSAID), was synthesized in a two-step procedure based on an intramolecular oxidative coupling of pyrrole at the C-2 position with a chiral sultam enolate 130 leading to dihydropyrrolizine 131 as a 4.5 1 mixture of epimers (Scheme 23). Subsequent benzoylation, performed on the crude... 

Electron-rich heterocycles can also be coupled with olefins in the presence of a suitable palladium(II) catalyst. The oxidative coupling requires the use of a stoichiometric amount of palladium however, unless a suitable oxidising agent is added to the reaction. In an early example N-sulphonylated pyrrole was reacted with 1,4-naphthoquinone in the presence of an equimolar amount of palladium acetate to give the coupled product in good yield (6.92.).124... 

There have also been several reports of the cyclization of diynes with amines under the influence of copper(I) chloride (equation 73) (65CB98, 70KGS125, 72TL3487). This is a potentially useful reaction for symmetrically substituted pyrroles, since symmetrical diynes can be obtained by oxidative coupling of alkynes. 

Sanchez-Garcia (09OL77) has reported a one-pot procedure (Scheme 21) for the synthesis of 4,4 -diaryl-4,4 -diheteroaryl-substituted-2,2 -bipyrrole 45 based on the oxidative coupling of 2-trimethylstannylated pyrrole 44. 

Oxidative coupling reactions involving pyrroles mediated by phenyliodine(III) bis(trifluoroacetate) (PIFA) have been reported these include the formation of bipyrroles <07S2913> and 2-cyanopyrroles <07JOC109>. 

In a series of papers on the total syntheses of alkaloids, Baran and coworkers have recently reported that enolates of carbonyl compounds undergo oxidative coupling with indoles and pyrroles in the presence of oxidants such as copper(II) and iron(III) salts . A detailed study of the oxidative cyclization reported in equation 15 has shown that 26 is converted into 27 with the highest yields when Fe(acac)3 is the oxidant, presumably due to its high redox potential (+1.1 V vs. the ferrocenium/ferrocene couple in THF solution ), which is the most positive among all the oxidizing agents tested for the transformation. 

Silver enolates are proposed as reactive intermediates in the reaction of sUyl enolates with AgaO in dmso. An important feature of the reaction is the regiospecific formation of l,4-diketones °j. Sessler and coworkers reported that the key step in the preparation of / -substituted tetra- and hexaalkylterpyrrols is the copper(II) triflate-mediated oxidative coupling of the Ida-derived enolates of a-keto pyrrols. The coupling reaction shown in equation 24 produces a mixture of distereoisomers which does not require separation and can be directly converted to the corresponding terpyrroles. 

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