Halobenzenes reactions

Neither Friedel-Crafts acylation nor alkylation reactions can be earned out on mtroben zene The presence of a strongly deactivating substituent such as a nitro group on an aromatic ring so depresses its reactivity that Friedel-Crafts reactions do not take place Nitrobenzene is so unreactive that it is sometimes used as a solvent m Friedel-Crafts reactions The practical limit for Friedel-Crafts alkylation and acylation reactions is effectively a monohalobenzene An aromatic ring more deactivated than a mono halobenzene cannot be alkylated or acylated under Friedel-Crafts conditions... 

Many variations of the reaction can be carried out, including halogenation, nitration, and sulfonation. Friedel-Crafts alkylation and acylation reactions, which involve reaction of an aromatic ling with carbocation electrophiles, are particularly useful. They are limited, however, by the fact that the aromatic ring must be at least as reactive as a halobenzene. In addition, polyalkylation and carbocation rearrangements often occur in Friedel-Crafts alkylation. 

The anion of DMSO undergoes a phenylation reaction with aryl halides under sunlight stimulation38. The presence of benzhydryl methyl sulfoxide (maximum yield 5%) in all runs, the sunlight activation, the order of reactivity of halobenzenes (I > Br > Cl), the inhibition of the reaction with oxygen, all hint at the SRN139-44 mechanism (Scheme 3). 

When arenesulfonyl radicals are generated in benzene the only reported products are those of disproportionation50,95 (vide supra). However, Camaggi and coworkers95 have found that arenesulfonyl radicals in halobenzene replace the halogen atom at 150-190 °C, the relative reactivities being for Cl Br I, 1 5.9 18.6. These authors95 proposed that the reaction proceeds via a reversible ip.vo-substitution,... 

Figure 10. Reactions in Cu-zeolite catalyzed amination of halobenzenes.

Solvent-free SNAr reactions under solid-liquid PTC conditions were realized by using methoxide or phenoxide as nucleophiles. The main results, and comparison with those from classical heating, are indicated in Tab. 5.24 for activated (e.g. 4-nitro-halobenzenes) or nonactivated (e.g. a-naphthyl halides) substrates [74]. 

Quaternary ammonium salts catalyse the reaction of activated halobenzenes with thioiminium salts [52], alkanethiols [10] and thiophenols [29, 53] to yield mixed thioethers and, with sodium sulphide under liquiddiquid or solidiliquid two-phase conditions, symmetrical diaryl sulphides [29,54,55] (Table 2.5). 

Alkoxide or aryloxide anions are also reputed to be inactive in Sr I reactions. There is, however, one example of such a reaction at an sp carbon the nitro-derivative of 4-nitrocumyl reacts with phenoxide and 1-methyl-2-naphthoxide ions yielding the corresponding ethers (Kornblum et al., 1967). A similar reaction has been reported for halobenzenes in t-butyl alcohol upon stimulation by sodium amalgam (Rajan and Sridaran, 1977). This reaction could not, however, be reproduced (Rossi and Pierini, 1980) and other attempts to make phenoxide ions react at sp carbons have been equally unsuccessful (Ciminale et al, 1978 Rossi and Bunnett, 1973 Semmelhack and Bargar, 1980). It has been found, more recently, that phenoxide ions react with a series of aryl halides under electrochemical induction, but that the coupling occurs at the p- or o-phenolic carbon rather than at the phenolic oxygen (Alam et al, 1988 Amatore et al, 1988). This is... 

Changes in intramolecular selectivity in the bromination and nitration of alkyl-benzenes in acidic media have been attributed to changes in medium polarity or changes in electrophile solvation. Mass spectrometric studies of the first stage in the gas-phase reactions of halobenzenes, furan, thiophene and pyrrole with alkyl cations have been rationalized in terms of co-existing a- and tt-complexes. The extent of... 

Nucleophilic astatination of halobenzenes CgHjX (X = Cl, Br, I) in homogeneous mixtures with -C4H9NH2, (C2H5)2NH, and (C2Hj>3N at 210° C has led to the formation of astatobenzene with radiochemical yields of 75-90% 143, 144). A two-step process has been postulated [Eqs. (10) and (11)], with the latter reaction [Eq. (11)] as the ratedetermining step ... 

The reaction of o-nitrobenzaldehydes with some benzene derivatives in the presence of strong acid (H2S04, PPA) is a classical synthesis of acridinol N-oxides (373) (37BSF240) The synthesis works for benzyl alcohol, benzene, toluene and halobenzenes, but not for benzoic acid, benzonitrile, dimethylaniline, or nitrobenzene. Isoquinoline N-oxides (374) have been obtained from o-bromobenzaldoxime or the acetophenone derivative, and active methylene compounds with copper bromide and sodium hydride (77S760). The azobenzene cobalt tricarbonyl (375) reacts with hexafluorobut-2-yne to give a quinol-2-one (72CC1228), and the 3,4,5-tricyanopyridine (376) is formed when tetracyanoethylene reacts with an enaminonitrile (80S471). 

Subsequent papers in this series have reported the electrochemical fluorination of di- and tri-fluorobenzenes, (Part II) [17] trifluoromethyl-benzenes, (Part III) [18] chlorobenzene, (Part IV) [19] as well as side reactions during the fluorination of halobenzenes, (Part V) [20]. 

Of numerous chloral condensations with aromatic hydrocarbons the most interesting for the synthesis of condensation monomers are the reactions with benzene [3], toluene [4], acenaphthene [5], phenol [6], anisol [7], acetanilide [8] and halobenzenes like chlorobenzene [9] and fluorobenzene [10]. In general terms, these reactions proceed according to Scheme 2.2 and give the desired 1,1,1-trichloro-... 

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