Furans alkoxy

The oxidation of the cyclic enol ether 93 in MeOH affords the methyl ester 95 by hydrolysis of the ketene acetal 94 formed initially by regioselective attack of the methoxy group at the anomeric carbon, rather than the a-alkoxy ketone[35]. Similarly, the double bond of the furan part in khellin (96) is converted ino the ester 98 via the ketene acetal 97[l23],... 

Furan-2(3H)-one, 4,5-dihydro-5-methyl-dipole moments, 4, 556 Furan-2(3H)-one, 5-methyl-reactions, 4, 648 Furan-2(5H)-one, 5-alkoxy-synthesis, 4, 135 Furan-2(5H)-one, 5-ethyl-synthesis, 4, 135... 

Alkoxy(carbene)iron(0) and amino(carbene)iron(0) complexes usually react with alkynes to give rj4-pyrone iron complexes and furans, respectively [54]. Nevertheless the chemoselective formation of naphthols was reported for alkoxy(carbene)iron(0) complexes with the electron-poor alkyne dimethyl... 

Photochemical [2+2]cycloaddition between benzo[b]furan and 3-cyano-2-alkoxy-pyridines in benzene has been reported to follow a very interesting mechanism supported also by Frontier-MO calculations using the PM3 Hamiltonian. It is believed that the singlet excited state of the pyridine and the ground state benzofuran react to form a [2+2] adduct and is followed by ring opening to the cyclooctatriene, which cyclizes to the secondary endo- and exo-isomers shown below <00CC1201>. 

As demonstrated in previous sections, the carbazole unit was introduced as a pendant group or as a chain member in major classes of EL polymers such as PPVs (95-105,141,177, 190) and PFs (62, 63, 242-245). A variety of 2,7-carbazole-derived polymers with different conjugated units, such as 2-alkoxy- and 2,5-dialkoxy-l,4-phenylene (549) and l,l -binaphtha-lene-6,6 -diyl (550 [658]), 2,5-pyridine (551), 2,7-fluorene (245 [345,346]), 2,5 -bithiophene (554 [345]), 5,8-quinoxaline (552), quinquethiophene-SjS -dioxide (450 [550]), 2,5-thiophene (553), 2,5-furan (555), and acetylene (556 [659]) were reported by Leclerc and coworkers... 

Cyclopentenones. 1,3-Dicarbonyl compounds add to enol ethers or esters (terminal) in the presence of Mn30(OAc)7 (excess) to form l-alkoxy-l,2-dihydro-furans. These can be converted to a 1,4-diketone, which undergoes aldol cyclization to fused (or spiro) cyclopentenones.1... 

In contrast to the rich chemistry of alkoxy- and aryloxyallenes, synthetic applications of nitrogen-substituted allenes are much less developed. Lithiation at the C-l position followed by addition of electrophiles can also be applied to nitrogen-containing allenes [10]. Some representative examples with dimethyl sulfide and carbonyl compounds are depicted in Scheme 8.73 [147, 157]. a-Hydroxy-substituted (benzotriazo-le) allenes 272 are accessible in a one-pot procedure described by Katritzky and Verin, who generated allenyl anion 271 and trapped it with carbonyl compounds to furnish products 272 [147]. The subsequent cyclization of 272 leading to dihydro-furan derivative 273 was achieved under similar conditions to those already mentioned for oxygen-substituted allenes. 

Me2S04 or Et,S04 (17.3 mmol) is added with vigorous stirring to the TBA-tetronate (16.5 mmol) prepared by the addition of aqueous TBA-OH (0.5 M, 3.5 ml) to the appropriate tetronic acid (16.5 mmol) and evaporation to dryness under reduced pressure, in CH2C12 (70 ml). The mixture is stirred until the reaction is complete and the solvent is then evaporated. H,0 (50 ml) is added to the residue and the aqueous solution is continuously extracted with Et20 for ca. 3 h. The ethereal extract is washed with aqueous NaHCO, dried (MgS04), and evaporated to give the 4-alkoxy-5H-furan-2-one (R = H,... 

The intermediate vinylketene complexes can undergo several other types or reaction, depending primarily on the substitution pattern, the metal and the solvent used (Figure 2.27). More than 15 different types of product have been obtained from the reaction of aryl(alkoxy)carbene chromium complexes with alkynes [333,334]. In addition to the formation of indenes [337], some arylcarbene complexes yield cyclobutenones [338], lactones, or furans [91] (e.g. Entry 4, Table 2.19) upon reaction with alkynes. Cyclobutenones can also be obtained by reaction of alkoxy(alkyl)carbene complexes with alkynes [339]. 

Alkoxy radicals react easily with the furan ring the initial attack is not followed by rearomatization, but 2,5-dihydro derivatives are formed. Thus with f-BuOOH and Fe " " in methanol the reaction products were interpreted according to Scheme 16. 

When 1-alkoxy- or 1,1-dialkoxycarbonylbenzocyclopropenes are photolyzed or heated above their melting points, furans may be formed via intramolecular interception of the intermediate carbenes. For example, 1,1-dimethoxycar-bonyl-2,5-diphenylbenzocyclopropene (263) reairanges at 170-210 °C to the fiiran 370. Similar reactions occur with 1,1-diphenyl-substituted benzocyclopropenes, which react to give fluorenes. ... 

Diels-Alder reactions of oxazoles afford useful syntheses of pyridines (Scheme 53) (74AHC( 17)99). A study of the effect of substituents on the Diels-Alder reactivity of oxazoles has indicated that rates decrease with the following substituents alkoxy > alkyl > acyl >> phenyl. The failure of 2- and 5-phenyl-substituted oxazoles to react with heterodienophiles is probably due to steric crowding. In certain cases, bicyclic adducts of type (359) have been isolated and even studied by an X-ray method (87BCJ432) they can also decompose to yield furans (Scheme 54). With benzyne, generated at 0°C from 1-aminobenzotriazole and lead tetraacetate under dilute conditions, oxazoles form cycloadducts (e.g. 360) in essentially quantitative yield (90JOC929). They can be handled at room temperature and are decomposed at elevated temperatures to isobenzofuran. 

Disubstituted furans (130) can be obtained by treatment of j8-alkoxy- and j8-arylthio-a,j8-unsaturated ketones, for example 3-methoxy-l-phenyI-2-buten-l-one (128) or 3-ethylthio-l-phenyl-2-buten-l-one (129), with dimethylsulfonium methylide (79JHC815, 69TL679). The possible reaction pathway (Scheme 27) shows the initially formed epoxides as rearranging by ring opening at the tertiary epoxide carbon atom. 

The reaction of a-bromoacetals with trimethylsilylenolates catalyzed by titanium tetrachloride provides /3-alkoxy-y-bromoketones, which are useful furan precursors (Scheme 33) (75CL527). A new synthesis of acylfurans is exemplified by the formation of the 3-acetyl derivative (146) by heating the brdmoalkene (145) (78JOC4596). 2,2-Dimethyl-3(2//)-furanone (148) has been synthesized from 3-hydroxy-3-methylbutan-2-one treatment with sodium hydride and ethyl formate gave the hydroxymethylene derivative (147), which was cyclized and dehydrated to the furanone (148) with hydrochloric acid (Scheme 34) (71TL4891). O... 

It is known that 3-aminobenzo[6]furan can be prepared from o-cyanophenols and a-halogenocarbonyl compounds with subsequent Thorpe cyclization (73JPR779). The extension of this synthesis to heteroatom substituted benzo[6]furans is straightforward (76JPR313). The reaction of potassium salts of 3-cyano-2-pyridones (e.g. 27) with a-halogenocarbonyl compounds (esters, ketones) yields 2-alkoxy-3-cyanopyridines which can be cyclized in the presence of sodium ethoxide to give 3-aminofuro[2,3-6]pyridines (Scheme 6). 

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