Bromination thiophene

Halogens attached to the thiophene nucleus can be removed by reagents such as Zn/Hg, Na/Hg, Al/Hg, LAH, etc. Zn/HOAc is one of the most useful systems for selective removal of a-halogens. Some examples are shown in Scheme 170 (63AHC(l)l>. In a one-pot procedure for polybromination-debromination (81SC25) of thiophenes, bromination is effected by... 

The difference in p values for equivalent reactions is probably not significant, particularly as there are often differences in reaction conditions and interpretations. Thus the kinetic form of some of the thiophene brominations are in doubt,258 there is a variation in acidic media used for the protodetritiation,260 and a different catalyst, SnCl4, is used for the thiophene acetylations 261,262 cf that for the benzenoid reaction, A1C13. In general, therefore, and in particular for the chlorination reaction,257 there appears to be a constant oi value for thiophene with additivity of substituents effects, but there is certainly room in this area for further experimentation and debate. 

The first three reactions are all electrophilic substitution a bromination of a pyrrole, the nitration quinoline, and a Friedel-Crafts acylation of thiophene. Bromination occurs on the pyrrole at only remaining site. Nitration of quinoline occurs on the benzene rather than the quinoline r-fi (actually giving a mixture of 5- and 8-nitroquinolines, but don t worry if you didn t see t- Mi p. 1174), and the acylation would occur next to sulfur. 

Benzeneseleninyl chloride in combination with AICI3, has been used for a-chlorination of thiophenes bromination takes place if AlBr3 >s used <93AHC(57)291>. 

For the bromination of thiophene, bromine and A-bromosuccinimide (NBS) are the most useful reagents [90], As in any electrophilic substitutiOTi of thiophene, halogenations take place preferentially at a-positions. 2-Substituted thiophenes are usually halogenated at C-5, and 3-substituted thiophenes are halogenated either at C-2 or at C-5 depending on the substituent. 

Painful/prickly acetone, acetic acid, ammonia, formic acid, thiophene, bromine... 

Introduction of a 3-bromosubstituent onto thiophene is accompHshed by initial tribromination, followed by reduction of the a-bromines by treatment with zinc/acetic acid, thereby utilizing only one of three bromines introduced. The so-called halogen dance sequence of reactions, whereby bromothiophenes are treated with base, causing proton abstraction and rearrangement of bromine to the produce the most-stable anion, has also been used to introduce a bromine atom at position 3. The formation of 3-bromotbiopbene [872-31-1] from this sequence of reactions (17) is an efficient use of bromine. Vapor-phase techniques have also been proposed to achieve this halogen migration (18), but with less specificity. Table 3 summarizes properties of some brominated thiophenes. 

The reactivity sequence furan > tellurophene > selenophene > thiophene is thus the same for all three reactions and is in the reverse order of the aromaticities of the ring systems assessed by a number of different criteria. The relative rate for the trifluoroacetylation of pyrrole is 5.3 x lo . It is interesting to note that AT-methylpyrrole is approximately twice as reactive to trifluoroacetylation as pyrrole itself. The enhanced reactivity of pyrrole compared with the other monocyclic systems is also demonstrated by the relative rates of bromination of the 2-methoxycarbonyl derivatives, which gave the reactivity sequence pyrrole>furan > selenophene > thiophene, and by the rate data on the reaction of the iron tricarbonyl-complexed carbocation [C6H7Fe(CO)3] (35) with a further selection of heteroaromatic substrates (Scheme 5). The comparative rates of reaction from this substitution were 2-methylindole == AT-methylindole>indole > pyrrole > furan > thiophene (73CC540). 

The electrophilic substitution of thiophene is much easier than that of benzene thus, thiophene is protonated in aqueous sulphuric acid about 10 times more rapidly than benzene, and it is brominated by molecular bromine in acetic acid about 10 times more rapidly than benzene. Benzene in turn is between 10 and lo times more reactive than an uncharged pyridine ring to electrophilic substitution. 

Halogens react with benzo[6]furan by an addition-elimination mechanism to give 2- and 3-substituted products (76JCS(P2)266). Treatment of benzo[6]thiophene with chlorine or bromine in acetic acid gives predominantly 3-substituted products (71JCS(B)79). 2,2,3,3,4,5,6,7-Octachloro-2,3-dihydrobenzothiophene is obtained when benzo[6]thio-phene is treated with chlorine in the presence of 1 mole of iodine (80JOC2l5l). 

The 2-thienylthiourea (245) on oxidation with bromine in acetic acid gave the thieno[3,2-djthiazole (247). It has been suggested that the intermediate electrophilic sulfenyl bromide adds to the 2,3-bond of the thiophene ring to form (246) when then loses HBr to give (247) (71AJC1229, 78JHC81). Pyrazolo(3,4- /]thiazoles are formed in a similar fashion (76GEP2429195). 

Nitration of 4-(2-thienyl)- (301) and 4-(3-thienyl)-pyrazoles (302) mainly occurs on the thiophene ring, but when acetyl nitrate is used as the nitration agent small quantities of products nitrated on the pyrazole ring are isolated (position of the nitro group uncertain) (80CS( 15)102). Pyrazol-l -ylpyridines (303) undergo electrophilic reactions (bromination, chlorination and nitration) preferentially in the pyrazole ring. Thus, the nitration of (303 R = R = = H) either with a mixture of nitric acid and sulfuric acid at 10-15 °C or with... 

Thiophene-2-carbaldehyde, 3-bromo-synthesis, 4, 81 Thiophenecarbaldehydes benzothiophene synthesis from, 4, 906 reactions, 4, 807 synthesis, 4, 148 Wittig reactions, 4, 807 Thiophene-2-carb aldehydes bromination, 4, 753 conformation, 4, 33 halogenation, 4, 753 reactions, 4, 72-73 reactivity, 4, 72-73 reduction, 4, 776 Thiophene-3-carb aldehydes conformation, 4, 33 reactivity, 4, 72... 

Procedures have been worked out which increased the yield of 2-bromothiophene to 78% on direct bromination in acetic acid-ether mixtures and to 67% in carbon tetraehlorided With the mild brominating agent, dioxane dibromide, quantitative yields of 2-bromothiophene are obtained. A very convenient procedure for the iodination of thiophenes consists of the acid-catalyzed (HzSOi) reaction with iodine and HIO3, giving 2-iodothiophene in 75% yieldd In contrast to the HgO method, all the iodine is utilized. 

Campaigne et al. have used 3-thenyl bromide obtained by benzoyl peroxide-catalyzed, side-chain bromination of 3-methylthiophene with A -bromosuccinimide, as a starting material for 3-substituted thiophenes. - 22 3-Methylthiophene is now prepared commercially from itaconic acid. The reactive halogen in 3-thenyl bromide could be directly reacted with a variety of nucleophiles, such as cyanide, or malonate, to give more complex 3-substituted compounds. 3-Thenyl bromide was converted by the Sommelet reaction to 3-thio-phenealdehyde which, with silver oxide, was oxidized to 3-thio-... 

Finally, certain 3-substituted compounds can be prepared by utilizing the - meta) directing powet (cf. Section IV,B) of some groups in the 2-position which afterward can be removed. 3-Nitrothiophene is prepared by nitration of 2-thiophenesulfonyl chloride and by removal of the sulfonic acid group of the 4-nitro-2-sulfonyl chloride formed with superheated steam. Another approach to 3-nitrothio-phene is to nitrate 2-cyanothiophene, separate the 4-nitro-2-cyano-thiophene from the 5-isomer, hydrolyze, and decarboxylate. A final method of preparation of 3-nitrothiophene is by simultaneous de-bromination and decarboxylation of 5-bromo-4-nitro-2-thiophene-carboxylic acid obtained through the nitration of methyl 5-bromo-2-thiophenecarboxylate. 

This activation of the ortho position is most strikingly illustrated in the reactivity of 2,5-dimethylthiophene, which competitive experiments have shown to undergo the SnCb-catalyzed Friedel-Crafts reaction more rapidly than thiophene and even 2-methylthiophene. The influence of the reagent on the isomer distribution is evident from the fact that 2-methoxythiophene is formylated and bromi-nated (with A -bromosuccinimide) only in the 5-position. Similarly, although 3-bromo-2-methylthiophene has been detected in the bromi-nation of 2-methylthiophene with bromine, only the 5-isomer (besides some side-chain bromination) is obtained in the bromination of alkylthiophenes with A -bromosuccinimide. ° However, the mechanism of the latter type of bromination is not established. No lines attributable to 2-methyl-3-thiocyanothiophene or 2-methyl-3-chIoro-thiophene could be detected in the NMR spectra of the substitution products (5-isomers) obtained upon thiocyanation with thiocyanogen or chlorination with sulfuryl chloride. 2-Methyl- and 2-ethyl-thiophene give, somewhat unexpectedly, upon alkylation with t-butyl chloride in the presence of Feds, only 5-t-butyl monosubstituted and... 

From resonance structure (12) it is obvious that a —I—M-substit-uent strongly deactivates the 2-position toward electrophilic substitution, and one would thus expect that monosubstitution occurs exclusively in the 5-position. This has also been found to be the case in the chlorination, bromination, and nitration of 3-thiophenecarboxylic acid. Upon chlorination and bromination a second halogen could be introduced in the 2-position, although further nitration of 5-nitro-3-thiopheneearboxylic acid could not be achieved. Similarly, 3-thiophene aldehyde has been nitrated to 5-nitro-3-thiophene aldehyde, and it is further claimed that 5-bromo-3-thiopheneboronic acid is obtained upon bromination of 3-thiopheneboronic acid. ... 

Additional examples of the reactivity of the 4-position in thiophenes with —I-j-M-substituent in the 3-position are provided by the bromination of 3-thiophenecarboxylic acid to 2,4,5-tribromothio-phenecarboxylic acid and the recent diacetylation of 2,5-dimethyl-thiophene by Goldfarb et who used the swamping catalyst... 

Further substitution of 2,4-disubstituted and most 2,3-disubstituted thiophenes occurs in the free a-position, except when a - -M-substituent in the 3-position strengthens the 4-directing power of a —1—M-sub-stituent in the 2-position. Thus methyl 3-methyl-2-thiophenecar-boxylate is brominated in the 4-position and 3-brorao-2-thiophene-aldehyde is nitrated in the 4-position. Recent investigations on the chloromethylation, sulfonation, mercuration, and nitration of 2,4-di-chlorothiophene, which without proof are assumed to occur in the 5-position serves as examples of the reactivity of a 2,4-disubstituted thiophene. Formylation with iV,A-dimethylformamide and... 

In the reactions of 2,5-disubstituted thiophenes elimination of an a-substituent occurs to a much greater extent than in the benzene series. The Friedel-Crafts acetylation of 5-bromo-2-ethylthiophene in the presence of SnCE gives 2-ethyl-5-acetyIthiophene. Elimination of an a-bromine occurs also in the chloromethylation of 2,5-di-bromothiophene, leading to a mixture of 2-bromo-5-chloromethyIthio-phene and 2,5-dibromo-3-chloromethyIthiophene. Bromine atoms at both the and -position are exchanged for chlorine in the... 

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