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Thiophene 2- lithio

The first proton to be removed from iV-methylpyrrole by w-butyllithium is from an a-position a second deprotonation occurs to give a mixture of 2,4- and 2,5-dilithiated derivatives. The formation of a 2,4-dilithio derivative is noteworthy since in the case of both furan and thiophene initial abstraction of a proton at C-2 is followed by proton abstraction from C-5 (77JCS(P1)887). iV-Methylindole, benzo[6]furan and benzo[6]thiophene are also deprotonated at C-2. Selenophene and benzo[6]selenophene and tellurophene and benzo[6]tellurophene similarly yield 2-lithio derivatives (77AHC(21)119). [Pg.59]

Directive effects on lithiation have also been studied. The regiospecific /3-metallation of A-methylpyrrole derivatives and 2-substituted furans has been effected by employing the directive effect of the oxazolino group (82JCs(Pl)1343). 2-Substituted furans and thiophenes are metallated in the 5-position. The formation of 2-lithio-3-bromofuran on treatment of... [Pg.59]

This can be achieved by an indirect method. The lithio derivative is first reacted with a borate ester. Sequential acid hydrolysis and oxidation yields the corresponding hydroxy derivative. This procedure is illustrated by the conversion of 2-lithiobenzo[6]thiophene to 2-hydroxybenzo[6]thiophene, which exists predominantly in the 2(3//)-one tautomeric form (200) <70JCS(C)1926). [Pg.80]

Carbon-sulfur bonds can be formed by the reaction of elemental sulfur with a lithio derivative, as illustrated by the preparation of thiophene-2-thiol (201) (700S(50)104). If dialkyl or diaryl disulfides are used as reagents to introduce sulfur, then alkyl or aryl sulfides are formed sulfinic acids are available by reaction of lithium derivatives with sulfur dioxide. [Pg.80]

Thiophene, 2,5-dimethyl-3-lithio-ring opening, 4, 81 Thiophene, 2,5-dimethylthio-3,4-disubstituted synthesis, 4, 872 Thiophene, dinitro-... [Pg.891]

The most convenient method of preparation of acetyldibenzothio-phenes is via treatment of the appropriate lithio derivative with N,N-dimethylacetamide. In this way 2-acetyl- (92%) and 3-acetyldibenzo-thiophene (44%) have been prepared. Using this method the relatively inaccessible 4-acetyl and the unknown 1-acetyl isomers should become readily available. [Pg.274]

The synthesis of the four monocarboxylic acids of dibenzothiophene has been recorded in the previous review. However, several modified preparations have since been described. Ethyl 1-dibenzothiophene-carboxylate has been synthesized from 2-allylbenzo[6]thiophene (Section IV,B, 1) hydrolysis afforded the 1-acid (57% overall). In a similar manner, 3-methyl-1-dibenzothiophenecarboxylic acid was obtained from the appropriately substituted allyl compound. This method is now the preferred way of introducing a carbon-containing substituent into the 1-position of dibenzothiophene. 2-Dibenzothiophenecarboxylic acid has been prepared by oxidation of the corresponding aldehyde or by sodium hypoiodite oxidation of the corresponding acetyl compound. Reaction of 2-acetyldibenzothiophene with anhydrous pyridine and iodine yields the acetyl pyridinium salt (132) (92%), hydrolysis of which yields the 2-acid (85%). The same sequence has been carried out on 2-acetyldibenzothiophene 5,5-dioxide. The most efficient method of preparing the 2-acid is via carbonation of 2-lithio-... [Pg.275]

The formation of l-lithio-.io so. si.ssi 2.iithio-, and 3-lithiodibenzothiophene has been achieved by translithiation of the appropriate bromodibenzothiophene (Section VI, C, 3) with butyllithium. Higher yields of derivatives are obtained from 2-lithiodibenzothiophene by conducting the reactions at 0° rather than at room temperature. The comparatively low yield of compounds derived from 3-lithiodibenzothiophene at 0° may indicate that even lower reaction temperatures are required for this particular isomer, reduced yields probably being due to ortho-translithiation to the thermally stable 4-lithiodibenzothiophene (cf. the instability of 3-lithio-benzo[6]thiophene at 0° ). Both 2-lithio- and 3-lithio-4-methyldibenzo-thiophene have been prepared from the respective bromo compound, and a similar synthesis of 1 -lithio-4-methoxydibenzothiophene has been described. ... [Pg.282]

Sulfonylurea formation, isocyanate, 65, 66 Sulfuration, see also Lawesson benzoxazine, 471 lithio thiophene, 586 phenothiazine, 532, 533 Suzuki reaction, see Coupling Swem oxidation, 18... [Pg.669]

Although a limited range of Grignard reagents is available, the most widely used group is undoubtedly the lithio group introduced by direct lithiation (see Section 3.3.1.6.2). The ready formation of the lithio derivatives of pyrroles, furans and thiophenes and their benzo-fused derivatives has had a most important impact on the chemistry of these heterocyclic systems. Reaction of the... [Pg.357]

The reactions of the lithio derivatives of benzo[ >]-fused systems indole, benzo[6]furan and benzo[h]thiophene are similarly diverse. Since indole and benzo[h]thiophene undergo electrophilic substitution mainly in the 3-position, the ready availability of 2-lithio derivatives by deprotonation with n-butyllithium is particularly significant and makes available a wide range of otherwise inaccessible compounds. The ready availability of 3-iodoselenophene and hence of 3-lithioselenophene (73CHE845) provides a convenient route to 3-substituted selenophenes. 2-Lithiotellurophenes are especially important precursors of tellurophene derivatives because of the restricted range of electrophilic substitution reactions which are possible on tellurophenes (77AHC(2l)ll9). [Pg.359]

The tendency for the 3-lithio derivatives of furans and thiophenes to undergo ring opening has been exploited for the synthesis of polyunsaturated acyclic compounds. A trimethylsilyl group in the... [Pg.361]

N-Substituted pyrroles, furans and thiophenes can be 2-lithiated, and these lithio derivatives are important synthetic intermediates (Section 3.3.3.8). 2-Mercuri and 2-palladio derivatives are also important (Sections 3.3.3.8.8 and 3.3.3.8.9). [Pg.529]

Butylpotassium and butylcesium deprotonate furan at the 2-position (75BSF1302), but butyllithium is the reagent of choice. When furan is treated with butyllithium the reactions in Scheme 114 occur (77JCS(P1)887>. The conditions, however, may be controlled to yield predominantly the mono- or the di-lithio derivative. By carbonation and esterification of the reaction mixture obtained by treatment of furan with butyllithium and TMEDA (1 1 1) in ether at 25 °C for 30 min, a 98% yield of methyl furan-2-carboxylate is obtained. Similarly, a butyllithium TMEDA furan ratio of 2.5 2.5 1 in boiling hexane for 30 min results in 91% of dimethyl furan-2,5-dicarboxylate and 9% of the monoester. Competition experiments indicate that furan reacts with butyllithium faster than thiophene under non-ionizing conditions but that the order is reversed in ether or in the presence of TMEDA. [Pg.651]

Methyl- or 2-ethyl-benzo[Z> ]thiophenes are conveniently prepared by treatment of 2-benzo[6]thienyllithium with the appropriate alkyl sulfate <70AHC(11)177). Clemmensen or Wolff-Kishner reductions of the 2-acylbenzo[Z>]thiophenes are useful, but since acylation produces a mixture of the 2- and 3-acyl isomers (Section 3.14.2.4), these must be separated. Cyclization of phenyl phenacyl sulfide with hydrofluoric acid leads exclusively to 2-phenyl-benzo[6]thiophene, and 3-phenylbenzo[6]thiophene can be rearranged to the 2-isomer in hydrofluoric acid (Section 3.15.2.3.2). Aromatization of 2-cycIohexenylbenzo[6]thiophene, obtained by condensation of the 2-lithio reagent with cyclohexanone, gives 2-phenyl-benzo[6]thiophene, and the reaction is adaptable to the 2-(l-naphthyl) derivative also. [Pg.915]

The most direct synthesis of 2-acylbenzo[6]thiophenes involves reaction of the readily available 2-lithio derivative with acylating agents, such as nitriles, acid anhydrides, etc. (equation 19). Benzo[f>]thiophene-2-carboxylic acids are available by a variety of cyclization reactions (Section 3.15.9.2.4) and the acid chlorides or esters can be used to synthesize 2-acyl derivatives by conventional means. [Pg.918]

Very little work has been done on fluoro derivatives of thiophenes. 2-Fluorothiophene was obtained in low yield from treatment of 2-iodothiophene with arsenic trifluoride. The action of fluoroboric acid on thiophenediazonium salts was unsuccessful. It may be useful for the preparation of 4-, 5-, 6- or 7-fluorobenzo[6]thiophenes from the appropriate amines. However, these are more conveniently prepared from fluorine-substituted benzenethiols by ring-closure reactions. For example 4,5,6,7-tetrafluorobenzo[6 Jthiophene was obtained by decarboxylation of the corresponding 2,3-dicarboxylic acid (equation 99) prepared by condensation of pentafluorobenzenethiol with diethyl acetylenedicarboxylate (Section 3.15.3.4.1). 2-Fluorothiophene has been prepared from 2-thienyllithium using perchloryl fluoride, and 2-fluorobenzo[ Jthiophene from the 2-lithio derivative in a similar manner (Section 3.14.3.9.1). [Pg.932]

See other pages where Thiophene 2- lithio is mentioned: [Pg.189]    [Pg.79]    [Pg.81]    [Pg.890]    [Pg.9]    [Pg.232]    [Pg.41]    [Pg.185]    [Pg.259]    [Pg.241]    [Pg.267]    [Pg.320]    [Pg.531]    [Pg.321]    [Pg.321]    [Pg.79]    [Pg.81]    [Pg.719]    [Pg.771]    [Pg.834]    [Pg.927]    [Pg.931]    [Pg.933]    [Pg.950]    [Pg.1014]    [Pg.1051]   
See also in sourсe #XX -- [ Pg.211 ]



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Thiophenes 2- lithio

Thiophenes 2- lithio

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