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Aromatic compounds ring halogenation

In TT-complexes formed from aromatic compounds and halogens, the halogen is not bound to any single carbon atom but to the 7r-electron structure of the aromatic, though the precise geometry of the complexes is uncertain. The complexes with silver ions also do not have the silver associated with a particular carbon atom of the aromatic ring, as is shown by the structure of the complex from benzene and silver perchlorate. ... [Pg.117]

Pleschke A, Marhold A (2006) Catalytic transhalogenation process for preparing ring-fluorinated aromatics from ring-halogenated aromatics in the presence of an onium-compound. Catalyst. US2006/9643... [Pg.538]

Like other aromatic compounds, aromatic ethers can undergo substitution in the aromatic ring with electrophilic reagents, eg, nitration, halogenation, and sulfonation. They also undergo Eriedel-Crafts (qv) alkylation and acylation. [Pg.425]

An important use of the Friedel-Crafts alkylation reaction is to effect ring closure. The most common method is to heat with aluminum chloride an aromatic compound having a halogen, hydroxy, or alkene group in the proper position, as, for example, in the preparation of tetralin ... [Pg.710]

Competitive consecutive reactions are combinations of parallel and series reactions that include processes such as multiple halogenation and nitration reactions. For example, when a nitrating mixture of HN03 and H2S04 acts on an aromatic compound like benzene, N02 groups substitute for hydrogen atoms in the ring to form mono-, di-, and tri-substituted nitro compounds. [Pg.156]

When two nitro-groups are introduced into the benzene ring the chief product is m-dinitrobenzene, which conforms to the following general laws of substitution. For aromatic compounds there are three important typical reactions 1, halogenation 2, nitration, and 3, sulpho-... [Pg.163]

We consider as dihydro derivatives those rings which contain either one or two 5p3-hybridized carbon atoms. According to this definition, all reactions of the aromatic compounds with electrophiles, nucleophiles or free radicals involve dihydro intermediates. Such reactions with electrophiles afford Wheland intermediates which usually easily lose H+ to re-aromatize. However, nucleophilic substitution (in the absence of a leaving group such as halogen) gives an intermediate which must lose H and such intermediates often possess considerable stability. Radical attack at ring carbon affords another radical which usually reacts further rapidly. In this section we consider the reactions of isolable dihydro compounds it is obvious that much of the discussion on the aromatic heterocycles is concerned with dihydro derivatives as intermediates. [Pg.238]

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See also in sourсe #XX -- [ Pg.150 , Pg.255 ]



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Aromatic compounds halogenation

Aromatics halogenation

Aromatics halogens

Aromatics, halogenated

Halogen compounds

Halogen compounds aromatic

Halogenated aromatic

Halogenation aromatic rings

Halogenation compounds

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