Furans 2-aryl-, synthesis

Benzo[b]furan, 3-(anilinoethyl)-4,5,6,7-tetrahydro-synthesis, 4, 671 Benzo[b]furan, 2-aryl-synthesis, 4, 697, 710 Benzo[b]furan, 3-aryl-synthesis, 4, 710... 

Lee and Ghosh addressed this problem when they demonstrated that the highly electron-rich palladium complex 33 could be used to accomplish furan arylation with unreactive and sterically congested aryl chlorides (Scheme 10.10). This method allowed for the synthesis of 2,5-substituted furans 34A-C that had been previously difficult to access using other methods. This arylation is thought to proceed via a CMD pathway. 

Benzo[b]furan, 2-aryl-2,3-dihydro- H NMR, 4, 570 Benzo[b]furan, 2-bromo-nitration, 4, 604 Benzo[b]furan, 5-cinnamoyl-properties, 4, 708 Benzo[b]furan, 2-cyano-photochemical reactions, 4, 636 Benzo[b]furan, 2,3-dialkyl-synthesis, 4, 710 Benzo[b]furan, 2,3-dihydro-aromaticity... 

Furan, 2-alkenyl-3-hydroxytetrahydro-synthesis, 4, 677 Furan, alkyl-reactions, 4, 644 synthesis, 4, 710 Furan, 2-alkyl-mass spectra, 4, 21-22 synthesis, 4, 666 Furan, 3-alkyl-mass spectra, 4, 21-22 synthesis, 4, 665, 710 Furan, 5-alkyl-2-phenylthio-reactions, 4, 80 Furan, 2-alkyltetrahydro-synthesis, 4, 675, 711 Furan, 3-amido-synthesis, 4, 665 Furan, 2-amino-synthesis, 4, 74, 121, 661 tautomerism, 4, 38 Furan, 3-amino-tautomerism, 4, 38 Furan, 2-amino-3-cyano-synthesis, 4, 661, 689, 712 Furan, 3-amino-2-methyl-reaction, 4, 74 Furan, 2-aryl-reactions... 

A multitude of 2,3,5-trisubstituted furans are available via the Paal-Knorr condensation. As with the synthesis of disubstituted furans, the scope of this version of the reaction is broad and includes incorporation of aryl, alkyl, ester, and phosphonate substituents. 

Synthesis of 2-alkyl- or 2-aryl-substituted benzo[b]furans has been reported, involving a CuITMEDA complex which catalyzes the transformation of readily available ketone derivatives into the corresponding benzofurans in good-to-excellent yields in water (Eq. 6.13).29... 

The approach also allows the synthesis of furans by employing ethoxymethylene malonate, followed by an eliminative decarboxylation. This method was used by Balme for a formal synthesis of the antitumor lignan burseran (6/1-294), starting from 6/1-290,6/1-291 and 6/1-292 via the furan 6/1-293 (Scheme 6/1.78) [139], Furans as 6/1-298 can also be obtained by Pd-catalyzed reaction of 2-propynyl-l,3-dicarbonyls 6/1-295 with aryl halides 6/1-296 in DMF, using potassium carbonate as base, as shown by Arcadi, Cacchi and coworkers (Scheme 6/1.79) [140]. 

The mechanism of epoxide formation (Scheme 7) has not been established but the intermediacy of nickel enolates and ensuing aldol type reactions are suspected28 (cf. Zn-mediated formation of furans from a-bromoketones29). A limitation on the synthesis is that R cannot be aryl for these cases, the products are 2,4-diarylfurans (see Section IV,B,1).30... 

A useful palladium-promoted reaction on an intact pyrrolidone is illustrated in Scheme 27 in which a 1-vinyl derivative is arylated to give both 1-and 2-isomers.55 Compounds of type 24 may prove to be useful precursors for the synthesis of pharmacologically valuable 2-arylethylamines. A related palladium-catalyzed process is described in the section on furans. (see Eq. 14 in Section IV,B,1). 

The palladium-catalyzed arylation of alkenes by haloarenes, and applications in furan synthesis have been described earlier (see Eq. 14 in Section IV,B, 1). By employing o-aminoiodoarenes and appropriately substituted (Z)-alkenes it has proved possible to develop an efficient synthetic route to quinolin-2-ones (Scheme 140).213... 

A palladium-catalyzed one-step synthesis of dihydrobenzo[fc]furan-based fused aromatic heterocycles from bifunctional bromoenoates or bromoalkyl indoles and iodoarenes was reported, and an example is provided in the scheme below <060L3601>. 2-Alkyl- or 2-aryl-substituted benzo[ >]furans were synthesized by a copper-TMEDA catalyzed intramolecular annulation from the corresponding ketones <06OL1467>. 

Gold(I)-catalyzed synthesis of dihydrobenzo[ >]furans from aryl allyl ethers was reported as depicted below <06SL1278>. Highly efficient AuCl3/AgOTf-catalyzed atom-economical annulation of phenols with dienes was developed. This annulation generated various dihydrobenzo[ >]furans under mild conditions <06OL2397>. 

A divergent protocol for a solid-phase synthesis of 3-substituted 2,5-biarylfurans was reported. Thus, reaction of furan zincate A with polymer bound aryl bromide or iodide provides resin intermediates 61. Subsequent bromination-Suzuki coupling reaction followed by further transformations gives rise to structurally diverse 2,3,5-trisubstituted furans 68 in good overall yields and chemical purities <00TL5447>. 

These compounds contain a furan ring fused to a benzene moiety in the 2,3-position. This synthesis was also described by Flynn et al. [73] and is shown in Scheme 25 involved the coupling of 2-iodo-5-methoxyphenol 104, 4-methoxyphenylethyne 105 to form the intermediate o-alkynylphenolate 106. Aryl iodide 107 was added to the phenolate in DMSO with heat. Oxidative addition, palladium(II)-induced cyclization and reductive elimination resulted in the product 108 with an 88% yield. 

The synthetic approach to the benzo[fo]furan is similar to that of the thiophenes described in Scheme 39. The synthetic approach was described by Flynn et al. [73], and an example synthesis is given in Scheme 40. The appropriate iodophenol 104 is coupled to the aryl alkyne 111. The intermediate 155 is subsequently cyclized in the presence of an appropriately substituted aryl iodide, e.g., 107 under an atmosphere of carbon monoxide gas, to give the benzo[fr]furan chalcone derivative 156. Deprotection of the hydroxyl produces the target compound 157. 

A similar substituted furan synthesis was realized via a Pd-catalyzed tandem carbonylation-arylation using an a,p-acetylenic ketone, carbon monoxide, and bromothiophene [104],... 

In regard to the importance of a diastereoselective synthesis of 5-[hydroxy(aryl) methyl]furan-2(5//)-ones, the Bi(OTf)3-4H20-catalyzed vinylogous Mukaiyama aldol has been investigated with 2-(trimethylsilyloxy)furans and various carbonyl compounds [146]. 

Diketones can be used as the common precursor for the synthesis of furan, pyrrole, and thiophenes. The treatment of 1,4-diketones with aryl amines under similar conditions results in the formation of the corresponding pyrrole derivatives. 

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