Thiophene, 2-acyl

Benzo[6]thiophene, 2-acetyl-3-hydroxy-synthesis, 4, 892 Benzo[6]thiophene, 2-acyl-synthesis, 4, 918 Benzo[6]thiophene, 3-acyl-synthesis, 4, 918- 19 Benzo[6]thiophene, acylamino-synthesis, 4, 815 Benzo[6]thiophene, alkenyl-synthesis, 4, 917 Benzo[6]thiophene, 2-alkoxy-synthesis, 4, 929 Benzo[6]thiophene, 3-alkoxy-synthesis, 4, 929 Benzo[6]thiophene, 4-alkoxy-synthesis, 4, 930 Benzo[6]thiophene, 2-alkyl-synthesis, 4, 877-878 Benzo[6]thiophene, 2-alkylthio-synthesis, 4, 931 Benzo[6]thiophene, 2-amino-diazotization, 4, 810 reactivity, 4, 797 stability, 4, 810 synthesis, 4, 869, 924-925 tautomerism, 4, 38 Benzo[6]thiophene, 3-amino-cycloaddition reactions, 4, 68 synthesis, 4, 109, 881, 925 Benzo[6]thiophene, 4-amino-synthesis, 4, 925 Benzo[6]thiophene, 5-amino-synthesis, 4, 925 Benzo[6]thiophene, 7-amino-synthesis, 4, 925 Benzo[6]thiophene, 3-t-amyl-synthesis, 4, 915 Benzo[6]thiophene, 2-aryl-synthesis, 4, 881... 

Beckmann rearrangement, 4, 809 reactions, 4, 809 toxicity, 1, 136 Thiophene, 2-acyl-alkylation, 4, 777 synthesis, 4, 917 transacylations, 4, 760 Thiophene, 3-acyl-synthesis, 4, 918... 

Thiophene, 2-acyl-3-amino-5-aryl-4-cyano-synthesis, 4, 897 Thiophene, alkenyl-synthesis, 4, 917 Thiophene, alkoxy-synthesis, 4, 929 Thiophene, 2-alkoxy-5-aryl-synthesis, 4, 929 Thiophene, alkyl-... 

Isaev, Y. and Fripiat, J. J. 1999. A Lewis acid site-activated reaction in zeolites thiophene acylation by butyryl chloride. /. Catal. 182 257-263. 

Scheme 10 Application of carboxylic acids for thiophene acylation [30]...

Both thiophene acylation (Scheme 19) and alkylation (see Sect. 2.2.3) [39] were achieved by application of benzotriazole derivatives as active reagents. Thus,... 

Acyl peroxides Acyl thiophenes Adalat Adamantane Adamantane [281-23-2]... 

Sulfonated styrene—divinylbensene cross-linked polymers have been appHed in many of the previously mentioned reactions and also in the acylation of thiophene with acetic anhydride and acetyl chloride (209). Resins of this type (Dowex 50, Amherljte IR-112, and Permutit Q) are particularly effective catalysts in the alkylation of phenols with olefins (such as propylene, isobutylene, diisobutylene), alkyl haUdes, and alcohols (210) (see Ion exchange). Superacids. 

All lation. Thiophenes can be alkylated in the 2-position using alkyl halides, alcohols, and olefins. Choice of catalyst is important the weaker Friedel-Crafts catalysts, eg, ZnCl2 and SnCl, are preferred. It is often preferable to use the more readily accompHshed acylation reactions of thiophene to give the required alkyl derivatives on reduction. Alternatively, metalation or Grignard reactions, on halothiophenes or halomethylthiophenes, can be utilized. 

Acylation. To achieve acylation of thiophenes, acid anhydrides with phosphoric acid, iodine, or other catalysts have been widely used. Acid chlorides with AlCl, SnCl, ZnCl2, and BF also give 2-thienylketones. AH reactions give between 0.5 and 2.0% of the 3-isomer. There has been much striving to find catalyst systems that minimize the 3-isomer content attempting to meet to customer specifications. The standard procedure for formylation is via the Vil smeier-H a ack reaction, using phosphoms o xycbl o ri de / /V, / V- dim e tb yl fo rm a m i de (POCl /DMF) or /V-m ethyl form an i1 i de. 

The acid-catalyzed rearrangements of substituted pyrroles and thiophenes consequent on ipso protonation have been referred to previously (Section 3.02.2.4.2). There is some evidence that these rearrangements are intramolecular in nature since in the case of acid-induced rearrangement of 2-acylpyrroles to 3-acylpyrroles no intermolecular acylation of suitable substrates could be demonstrated (Scheme 10) (8UOC839). 

Thiophene is also readily acylated under both Friedel-Crafts and Vilsmeier-Haack conditions and similarly to pyrrole and furan gives 2-acylated products. An almost quantitative conversion of thiophene into its 2-benzoyl derivative is obtained by reaction with 2-benzoyloxypyridine and trifluoroacetic acid. The attempted preparation of 2-benzoylthiophene under standard Friedel-Crafts conditions, however, failed (80S139). 

Interesting results have been obtained in intramolecular acylation reactions involving pyrrole and thiophene derivatives. A muscone synthesis involves selective intramolecular acylation at a vacant a-position (Scheme 18) (80JOC1906). In attempts to prepare 5,5-fused systems via intramolecular acylation reactions on to a jS-position of a thiophene or a pyrrole, in some cases ipso substitution occurs with the result that rearranged products are formed (Scheme 19) (82TH30200). 

Acyl-pyrroles, -furans and -thiophenes in general have a similar pattern of reactivity to benzenoid ketones. Acyl groups in 2,5-disubstituted derivatives are sometimes displaced during the course of electrophilic substitution reactions. iV-Alkyl-2-acylpyrroles are converted by strong anhydrous acid to A-alkyl-3-acylpyrroles. Similar treatment of N-unsubstituted 2- or 3-acyIpyrroles yields an equilibrium mixture of 2- and 3-acylpyrroles pyrrolecarbaldehydes also afford isomeric mixtures 81JOC839). The probable mechanism of these rearrangements is shown in Scheme 65. A similar mechanism has been proposed for the isomerization of acetylindoles. 

Benzo[b]thiophene-2,3-quinone, 5-chloro-oxidation, 4, 824 Benzothiophenes, 4, 863-934 biological activity, 4, 911-913 intramolecular acylation, 4, 761 mass spectrometry, 4, 739 metabolism, 1, 242 phosphorescence, 4, 16 reactivity, 4, 741-861 spectroscopy, 4, 713-740 structure, 4, 713-740 substituents reactivity, 4, 796-839... 

Perfluoroalkanoyl chlorides and anhydrides are also acylating agents Tri-fluoroacetic anhydride acylates a number of pyrroles, thiophenes, and furans without a catalyst [37, 38, 39] AzuUne can be diacylated without a catalyst in 12 h [40] (equation 26). 

Similarly, 1-alkylpyrroles, indoles, furans, thiophenes [60], a-picoline [61], enols, malonates [76], and organometallic compounds [56, 62] react with acyl imines of trifluoropyruvates to give derivatives of a-trifluoromethyl a-amino acids... 

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