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Heteroaromatic alkylation

Alkyl bromides have also been used as sources of alkyl radicals for selective heteroaromatic alkylation by using Bu3SnH in combination with azobisisobutyroni-trile or a variety of silanes and peroxides (Scheme 7) [2]. [Pg.219]

A/-sulfonated ayiridines have also been used in Friedel-Crafts reactions (qv) (63). The successful C-alkylation of the heteroaromatic compounds indole (qv) [120-72-9] (64—66) and thiophene [110-02-1] (67) with a2itidines has also been reported ... [Pg.3]

Pyrroles, furans and thiophenes undergo photoinduced alkylation with diarylalkenes provided that the alkene and the heteroaromatic compound have similar oxidation potentials, indicating that alkylation can occur by a non-ionic mechanism (Scheme 20) (81JA5570). [Pg.53]

Tlie interest in the preparation and use of dithiolium salts in connection with the synthesis of TTF derivatives led to the development of a new uses of heteroaromatic cations in organic synthesis. Based on that, a new carbonyl olefination for the synthesis of numerous heterofulvalenes was developed (77S861). For example, 2-dimethoxyphosphinyl-l,3-benzodithiole was deprotonated with butyllithium in THF at -78°C and the resulting phosphonate carbanion reacted with 9-alkyl-acridones to give the dithia-azafulvalenes of type 45 (78BCJ2674) (Scheme 15). [Pg.125]

Both benzothiazolyl and berizolriazoly] units have been employed as heteroaromatic anion-stabilizing groups for metalated epoxides (Scheme 5.47) [71]. The successful use of a simple alkyl bromide as electrophile with 200 is notable. [Pg.170]

Alkyl radicals generated efficiently from allylsulfones in 80% aqueous formic acid induced a cyclization reaction on aromatic and heteroaromatic compounds to provide polycyclic aromatic and heteroaromatic derivatives (Eq. 7.17).37... [Pg.208]

Tricyclic antihistamines as a rule carry aliphatic nitrogen as a substituent on a side chain attached to the central ring the side chain nitrogen may be part of a heteroaromatic ring. Conjugate addition of p-chloroaniline (49) to the substituted vinylpyridine 50 gives the alkylated aniline 51. Treatment of that intermediate with nitrous acid leads to N-nitroso intermediate 52 which is then reduced to the hydrazine (53). Reaction of 53 with N-methyl-4-piperidone... [Pg.456]

The same group [38] also developed a double Heck reaction which was then terminated by a Friedel-Crafts alkylation to give 6/1-54 from 6/1-53 (Scheme 6/1.12) this involved an attack of an alkylpalladium(II) intermediate on an aryl or heteroaryl moiety. Noteworthy is the finding that the formal Friedel-Crafts alkylation occurs on both electron-rich and electron-poor heteroaromatic rings, as well as on substituted phenyl rings. Single Heck/Friedel-Crafts alkylation combinations have also been performed. [Pg.368]

Other electrophilic substitution reactions on aromatic and heteroaromatic systems are summarized in Scheme 6.143. Friedel-Crafts alkylation of N,N-dimethyl-aniline with squaric acid dichloride was accomplished by heating the two components in dichloromethane at 120 °C in the absence of a Lewis acid catalyst to provide a 23% yield of the 2-aryl-l-chlorocydobut-l-ene-3,4-dione product (Scheme 6.143 a) [281]. Hydrolysis of the monochloride provided a 2-aryl-l-hydroxycyclobut-l-ene-3,4-dione, an inhibitor of protein tyrosine phosphatases [281], Formylation of 4-chloro-3-nitrophenol with hexamethylenetetramine and trifluoroacetic acid (TFA) at 115 °C for 5 h furnished the corresponding benzaldehyde in 43% yield, which was further manipulated into a benzofuran derivative (Scheme 6.143b) [282]. 4-Chloro-5-bromo-pyrazolopyrimidine is an important intermediate in the synthesis of pyrazolopyrimi-dine derivatives showing activity against multiple kinase subfamilies (see also Scheme 6.20) and can be rapidly prepared from 4-chloropyrazolopyrimidine and N-bromosuccinimide (NBS) by microwave irradiation in acetonitrile (Scheme... [Pg.201]

A trialkyl- or triarylstannyl group can also be added to an aromatic ring. One way this can be accomplished is by treating an aromatic or heteroaromatic compound possessing an active hydrogen(s) with an alkyl lithium and then reacting the lithium salt with a trialkyltin halide (equation 97). Another general method that has been used to attach a trialkyl- or... [Pg.802]

The alkylation of the G-H bonds occurs even in the CH=N moiety of five-membered heteroaromatic compounds such as thiazoles, benzimidazoles, and oxazoles (Equation (25)).26,26a This intermolecular alkylation without chelation assistance is very interesting. [Pg.218]

In West Germany pyridazinium compounds as represented by formula (120, R1 = halogen, alkyl, aryl R2 = H, alkyl R3 = substituted amino R4 = substituted alkyl, cycloalkyl) have been claimed as antibacterial agents [338]. In Australia, mercapto derivatives of several nitrogen heteroaromatics including pyridazine-derived compounds (121, R = CONH2, CH2NMe2) have been prepared in a search of amplifiers of phleomycin [339] however, only low activity has been observed in this series. [Pg.29]

Recently, with a view to overcome the difficulty on the preparation of aryl or alkenyl halides or sulfonates, thioamides and their S-alkyl derivatives have been proposed as a new class of electrophilic partners. This palladium cross-coupling methodology was developed by Liebeskind and mostly applied to heteroaromatic templates.118 121... [Pg.156]

An alkyl or an aryl group is attached in the R1 position most commercially important pigments are derivatives with CH3 as R1. R2 mainly represents —HN—Ar, in which Ar is an aromatic or a heteroaromatic moiety. [Pg.183]

The greater acidities of the heteroaromatic azoles (pKa ca. 15), compared with simple acyclic and non-aromatic cyclic amines, is reflected in the ease with which the systems are /V-alkylated and /V-acylated. [Pg.195]

The two-phase alkylation reactions have been extended to the acylation of simple heteroaromatic systems. Generally, the required conditions are milder than those employed for the alkylation reactions, but an excess of the acylating agent is usually required, owing to its facile hydrolysis in the basic media. Thus, benzimidazole and its 2-alkyl and 2-aryl derivatives have been benzoylated [46], and pyrrole and indole have been converted into a range of A-acyl [47, 48] and A-sulphonyl derivatives [48-53] (Table 5.35 and Table 5.36). [Pg.205]

Alkylation of potentially tautomeric heteroaromatic systems under basic phase-transfer catalytic conditions normally occurs on the softer heteroatom [cf 57]. Thus, although 2- and 4-pyridones are alkylated on the annular nitrogen atom and the exocyclic oxygen atom, -alkylation of the 2-pyridones predominates to the extent of ca. 5 1 (or greater under soliddiquid reaction conditions [58]), whereas the relative predominance of A -alkylation of the 4-isomer is only ca. 3 1 [59] (Table 5.37 and 5.38). These ratios are comparable with those obtained for the base-catalysed alkylation of the pyridones by traditional methods and, not unexpectedly, S-alkyla-tion of the corresponding pyridthiones occurs to the total exclusion of A-alkylation [60]. Catalysed soliddiquid acylation has also been reported [58]. [Pg.207]

Few examples of preparatively useful intermolecular C-H insertions of electrophilic carbene complexes have been reported. Because of the high reactivity of complexes capable of inserting into C-H bonds, the intermolecular reaction is limited to simple substrates (Table 4.9). From the results reported to date it seems that cycloalkanes and electron-rich heteroaromatics are suitable substrates for intermolecular alkylation by carbene complexes [1165]. The examples in Table 4.9 show that intermolecular C-H insertion enables highly convergent syntheses. Elaborate structures can be constructed in a single step from readily available starting materials. Enantioselective, intermolecular C-H insertions with simple cycloalkenes can be realized with up to 93% ee by use of enantiomerically pure rhodium(II) carboxylates [1093]. [Pg.189]


See other pages where Heteroaromatic alkylation is mentioned: [Pg.254]    [Pg.14]    [Pg.391]    [Pg.254]    [Pg.14]    [Pg.391]    [Pg.850]    [Pg.279]    [Pg.279]    [Pg.307]    [Pg.85]    [Pg.35]    [Pg.61]    [Pg.57]    [Pg.406]    [Pg.325]    [Pg.95]    [Pg.261]    [Pg.117]    [Pg.1119]    [Pg.214]    [Pg.311]    [Pg.439]    [Pg.807]    [Pg.25]    [Pg.204]    [Pg.93]    [Pg.210]    [Pg.278]    [Pg.70]   
See also in sourсe #XX -- [ Pg.3 , Pg.260 ]

See also in sourсe #XX -- [ Pg.3 , Pg.260 ]




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Alkylation heteroaromatic ketone

Alkylation of heteroaromatic bases

Amines heteroaromatic, alkylation

Heteroaromatic bases, alkylation

Heteroaromatic compounds, alkylation

Heteroaromaticity

Heteroaromatics

Heteroaromatics alkylation

Heteroaromatics alkylation

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