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Cyclizations copper® chloride

A copper-mediated cyclization of metallated thiophenes has been utilized to prepare polycyclic thiophenes and thiophene cyclophanes. Treatment of dibromide 106 in succession with M-butyllithium (halogen-metal exchange), zinc chloride (transmetallation), and copper chloride gave 7//-cyclopcnta[ 1,2-fc 4,3-6 dithiophene (107) <00H(52)761>. This conversion has also been achieved using a palladium-mediated cyclization performed in the presence of hexamethylditin . Copper-mediated cyclizations have also been applied to the syntheses of cyclopenta[2,l-6 3,4-A ]dithiophen-4-one (108) (three steps from 73) <00S1253> and cyclophane 109 <00CC2329>. [Pg.96]

Benzoxepins are frequently synthesized by cyclization of alkyl aryl or diaryl ether precursors. An intramolecular Wittig reaction (equation 48) is used to provide the ring closure step in the synthesis of 1-benzoxepin (28) (68JOC2591). An internuclear cyclization reaction of an aromatic sulfonyl chloride (equation 49) occurred upon heating (250 °C) in the presence of a copper chloride catalyst to yield tribenz[6,d,/]oxepin (175). The analogous thiepin (see equation 71) may also be synthesized by this route (65T1299). [Pg.581]

Similar results as just described can be obtained by changing the ratio of Cu /Cu2 or even by using only Cu or only Cu, as outlined in Table 20.1, although some change in the distribution of the products has been observed. If the polyynes solution in heptane is left in contact with the aqueous solution of copper chlorides under acidic conditions for one week, a plethora of new products can be detected by HPLC analysis. Probably, coupling reactions and intramolecular cyclization as well as addition reactions have taken place. [Pg.494]

In a similar way, iminoalkynes containing aryl, alkenyl, and alkyl substituents undergoes Cul-catalyzed cyclization in excellent yields and short reaction times to give isoquinolines, pyridines, and pyrroles via a cycloisomerization (eq 18)4 Copper chloride is preferred, however, for the conversion of cyclic alkynyl imines to pyrrole-containing heterocycles. Copper iodide catalyzes the formation of furans from alkynyl ketones. ... [Pg.224]

Benzo[t ]carbazoles 3.705 were synthesized from N,N-dimethyl-2-[2-(2-phenylethynyl)ethenyl]anilines 3.704 in a Pd(II)-catalyzed reaction with two equivalents of copper chloride in refluxing THF (Scheme 3.77) [332]. The possible pathways and reaction mechanisms are considered in Scheme 3.78. Obviously, both Pd(II) and Cu(II) catalyze the 2-alkynylaniline cyclization and thus in the first step, two possible intermediates, 3.706 or 3.707 can form. If we assume that the first step is... [Pg.172]

The branched oligo(arylene)s 37 and 40 can undeigo a further oxidative cyclization with copper(ll) chloride or triflate/aluminum trichloride leading to the formation of large, hitherto unknown polycyclic aromatic hydrocarbons PAHs 41 and 42. [Pg.42]

Cyclization of bromostilbenes 6 to dibenz[/ ,/]oxepins 7 can be achieved by irradiation in excellent yield.102 103 Under solvolytic conditions (60% NaOH, EtOH), the yield is greatly reduced. When a silver salt (AgOAc) is used, however, complete conversion to the tricyclic system is accomplished.102 Tribenz[/>,catalyzed cyclization of biphenyl-2-yl 2 -chlorosulfonylphenyl ether in 44% yield.260... [Pg.8]

The decomposition of 2-(2-phenylphenylsulfanyl)benzenesulfonyl chloride (5) at elevated temperatures leads to the formation of tribenzo[6,c/,/]thiepin(6) in 24% yield by an intramolecular cyclization pathway. Mechanistically, this thermolysis is comparable to the Pschorr reaction (cf. Houben-Weyl, Vol. 5/2b, p 420 Vol. 10/3, p 189) however, copper(I) chloride is now preferred as a catalyst, without any solvent.4 In the thermolysis of 5, 4-phenyldibenzothiophene (7) is formed as a byproduct in 14% yield. Octachloronaphthalene can also be employed as a catalyst however, the yield of 6 is somewhat lower (19%).4... [Pg.74]

Carboxylic acids, a-bromination of 55, 31 CARBOXYLIC ACID CHLORIDES, ketones from, 55, 122 CARBYLAMINE REACTION, 55, 96 Ceric ammonium nitrate [Ammonium hexa mtrocerate(IV)[, 55, 43 Chlorine, 55, 33, 35, 63 CHROMIUM TRIOXIDE-PYRIDINE COMPLEX, preparation in situ, 55, 84 Cinnamomtnle, a-phenyl- [2-Propeneni-tnle 2,3-diphenyl-], 55, 92 Copper(l) iodide, 55, 105, 123, 124 Copper thiophenoxide [Benzenethiol, copper(I) salt], 55, 123 CYCLIZATION, free radical, 55, 57 CYCLOBUTADIENE, 55, 43 Cyclobutadieneiron tricarbonyl [Iron, tn-carbonyl(r)4-l,3-cyclo-butadiene)-], 55,43... [Pg.140]

The reaction of crotonaldehyde and methyl vinyl ketone with thiophenol in the presence of anhydrous hydrogen chloride effects conjugate addition of thiophenol as well as acetal formation. The resulting j3-phenylthio thioacetals are converted to 1-phenylthio-and 2-phenylthio-1,3-butadiene, respectively, upon reaction with 2 equivalents of copper(I) trifluoromethanesulfonate (Table I). The copper(I)-induced heterolysis of carbon-sulfur bonds has also been used to effect pinacol-type rearrangements of bis(phenyl-thio)methyl carbinols. Thus the addition of bis(phenyl-thio)methyllithium to ketones and aldehydes followed by copper(I)-induced rearrangement results in a one-carbon ring expansion or chain-insertion transformation which gives a-phenylthio ketones. Monothioketals of 1,4-diketones are cyclized to 2,5-disubstituted furans by the action of copper(I) trifluoromethanesulfonate. ... [Pg.106]

The phthalide 25, obtainable by condensation of 4,4 -bisdimethyl-aminobenzophenone-2-carboxylic acid with 3-dimethylaminoacetanilide and subsequent hydrolysis, was diazotized in sulfuric acid and the resultant diazonium salt treated with copper powder to yield 26. However, better yields are reportedly obtained by carrying out ring closure of the diazonium salt in phosphoric acid.103 A further synthetic route has also been described in which phthalides undergo intramolecular cyclization in the presence of aluminum chloride and urea.104,105 Thus, Crystal Violet lactone (2) has been directly converted into phthalide 26.106... [Pg.116]

One of these products (49) was used as a key intermediate for the synthesis of the Amaryllidaceae alkaloids a- and /-lycorane (Scheme 12)53. A copper-catalyzed Grignard reaction with 49 afforded 50 via a selective y-anti displacement of the chloride. Hydrogenation followed by Bischler-Napieralski cyclization gave 51. Interestingly, reversal of the latter two steps gave the isomer 52 where an epimerization at the benzylic carbon had occurred in the cyclization step (>99% selectivity). Subsequent reduction of the amide in each case afforded the target molecules a- and y-lycorane, respectively. The purity of the final product was very high with respect to the opposite stereoisomer. Thus <0.2% of /-lycorane was present in a-lycorane and vice versa. [Pg.670]

Diazotizing 106 and boiling the solution in the presence of copper powder affords 1,1 -dinaphthyl-8,8 -dicarboxylic acid (107), which is cyclized with aluminum chloride, but preferably with concentrated sulfuric acid at 30 to 40°C to produce anthanthrone. [Pg.525]

The bishydrazones of the 1,2-diketones from inositols have also been converted into triazoles.222,223 The conversion of arylosazones into the corresponding osotriazoles requires the presence of an oxidant, and it is obvious that simple removal of aniline from the osazone, as suggested by the equation, is not involved. In addition to copper(II) sulfate, the reagent most commonly used, other oxidizing heavy-metal salts, such as ferric sulfate and chloride,224 and mercuric acetate,223 have been used, as well as halogens225 and nitro-sulfonates.226 The osazone acetates are converted into osotriazoles by nitrous acid,227 which decomposes the unacetylated osazones to the aldosuloses228 and the osazone formazans are cyclized with warm... [Pg.391]

A heptahelicene containing three furan rings (74) was made starting with the treatment of p-benzoquinone with strong acids. The resulting 2-hydroxybenzofurane was treated successively with iodine chloride and copper giving a biaryl derivative which was cyclized with HBr 60). [Pg.79]

Castro and Stephens16 developed a method for the preparation of unsymmetrical disubstituted acetylenes, which involves the reaction of copper(I) acetylides with aromatic iodo compounds. Bond and Hooper7 extended this route to the preparation of 2-arylisatogens (22). 2-Nitro-phenylpropiolic acid (19a) is readily decarboxylated to the acetylene (19b), which on treatment with copper(I) chloride gives 19c. The reaction of 19c with substituted aromatic iodo compounds (20) gives the corresponding acetylenes (21), which subsequently cyclize to the isatogens (22). The alternative route (23 + 24 - 21) has been little used.17... [Pg.128]


See other pages where Cyclizations copper® chloride is mentioned: [Pg.914]    [Pg.914]    [Pg.182]    [Pg.587]    [Pg.2151]    [Pg.5602]    [Pg.185]    [Pg.168]    [Pg.107]    [Pg.156]    [Pg.149]    [Pg.623]    [Pg.82]    [Pg.57]    [Pg.786]    [Pg.103]    [Pg.192]    [Pg.152]    [Pg.440]    [Pg.271]    [Pg.118]    [Pg.51]    [Pg.285]    [Pg.359]    [Pg.232]    [Pg.83]    [Pg.469]    [Pg.99]    [Pg.77]    [Pg.181]   
See also in sourсe #XX -- [ Pg.199 ]




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