Aniline benzene formed from

Kreher and Jager reported that arylphenylsulphones and anilines were formed from arylsulphonyl azides in the presence of aluminium chloride and benzene. The yields and the specific azides used were not given. 

HCA478). A similar route to quinolines via 1,2- dihydroquinolines starts fromN-propargyl-anilines and is copper catalyzed (62JOC4713). The allyl ether of cyclohexanone oxime (126) heated in benzene at 200 °C gives 5,6,7,8-tetrahydroquinoline (79S221) the proposed mechanism is reinforced by the isolation of a compound (128) formed from the ether (126) and a suggested intermediate (127). 

In a similar way it is possible to perform the amination of aromatics by indirect electrochemical reduction of hydroxylamine using a combination of the Cu /Cu and redox pairs Thus, aniline and toluidine are formed from benzene... 

Not all clathrates are hydrates. Other well-known examples have host lattices formed from hydrogen bonded aggregates of hydroquinone, phenol, and similar organic compounds. Non-hydrogen bonded host structures are also known. One example is a cyclotriphosphazene. (C6H402PN). that traps molecules such as benzene in tunnels in the crystal.2 In addition, coordination polymers are formed by ambidentate ligands, such as CN and SCN, which coordinate to metal ions at both ends (Chapter 12). Perhaps the best known of this type of compound is the series of Ni(CN)2NHj M compounds, where M may be benzene, thiophene, furon. pyrrole, aniline, or phenol. 

For the preparation of biphenyl compounds with substituents in only one ring, it is usually advisable to employ a substituted aniline and couple with benzene rather than to use aniline and couple with a benzene derivative, since with benzene only a single biaryl compound is produced. Thus, 4-methylbiphenyl can be isolated readily in pure form from the reaction between diazotized p-toluidine and benzene, but not from the mixture of 2- and 4-methylbiphenyl formed from diazotized aniline and toluene. 

One of the side reactions is the formation of linear polyaryls, which may be considered to be formed by further reaction of the biaryl initially produced. From the high-boiling residue remaining after the removal of the biphenyl, formed from diazotized aniline, benzene, and alkali, p-terphenyl and quaterphenyl16 have been isolated and in the mixture formed in the preparation of 4-methylbiphenyl a hydrocarbon was found... 

Photoinduced electron transfer between amines and aromatic hydrocarbons occurs to generate radical cations of amines and radical anions of aromatic hydrocarbons. Pac and Sakurai reported the photoaddition of N,N-dimethylaniline to anthracene via photoinduced electron transfer [60]. In benzene, the 4n + 4n) photocyclodimer of anthracene is produced as a sole isolable product, although an emission due to the exciplex formed from anthracene and JV,N-dimethylaniline is observed. In acetonitrile, the addition of dimethylaniline to anthracene occurs via their radical ions to give 9,10- dihydro-9-(4 -dimethylaminophenyl)anthracene as the major product. However, the photoamination on anthracene takes place even in benzene when iV-methylani-line is used as an electron donor. Sugimoto and his coworkers reported the intramolecular photoaddition of anilines to aromatic hydrocarbons to give cyclic amino compounds (Scheme 16) [61-63]. 

The vapor-phase pyrolysis of phenyl azide yields azobenzene in 72 % yield . The pyrolysis in aniline solution leads to the production of dibenzamil , identified as an azepine by modern techniques in benzene and p-xylene, the major products are azobenzene and aniline, presumably originating from reactions of PhN in hydrocarbon solvents the thermolysis produces aniline, alkyl-anilines, azobenzene and polymer . It has been shown that aniline and iV-alkylanilines arise from triplet state nitrene reactions with the solvent. In the gas-phase thermolysis of phenyl azide at low pressures aniline and azobenzene are the major products whereas at higher pressures the formation of l-cyano-1,3-cyclopentadiene (or 2-anilino-7H-azepine in the presence of aniline) predominates . It was deduced that aniline and azobenzene arise from triplet nitrene reactions and that at high pressures, a hot singlet nitrene is formed, which undergoes intramolecular insertion to form an azocyclopropene intermediate, viz. 

The properties of benzene evolve from this formula, in which each of the hydrogen atoms may be replaced by another atom or by a group of monovalent atoms. Starting with benzene, chlorobenzene, nitrobenzene, aminobenzene or aniline, toluene, phenol, xylene and others are obtained. Benzene unit structures can combine to form more complex bodies, such as naphthalene and anthracene. 

The source from which it is obtained is that portion of the product of distillation of coal-tar which passes over between 150° and 200 (302°-393° P.). This is treated with a saturated solution of potash, containing undissolved alkali a solid phenate is formed, which is dissolved in hot H,0 the liquid is allotved to separate into two layers, the lower of which is drawn off and neutralized with HCl the phenol rises to the surface, is separated, washed with water, dried over calcium chlorid, redistilled, crystallized at —10° (14° F.), and the crystals drained. A synthetic phenol is now made from benzene and from anilin, and seems to be more nearly pure than the natural product. 

Phosphinoacetic trianilide, CgH5.XH.CO.CH2-PO(XH.C6H5)2, is the condensation product of the trichloride and aniline. It separates from alcohol as colourless needles, M.pt. 191-5° to 192-5° C. (corr.), and dissolves in warm alcohol, ether, or benzene, but is insoluble in water. The tri-p-toluidide forms colourless needles, M.pt. 190° to 192° C. (corn). 

Because of the structural requirements of the bielectrophile, fully aromatized heterocycles are usually not readily available by this procedure. The dithiocarbamate (159) reacted with oxalyl chloride to give the substituted thiazolidine-4,5-dione (160) (see Chapter 4.19), and the same reagent reacted with iV-alkylbenzamidine (161) at 100-140 °C to give the 1 -alkyl-2-phenylimidazole-4,5-dione (162) (see Chapter 4.08). Iminochlorides of oxalic acid also react with iV,iV-disubstituted thioureas in this case the 2-dialkylaminothiazolidine-2,4-dione bis-imides are obtained. Thiobenzamide generally forms linear adducts, but 2-thiazolines will form under suitable conditions (70TL3781). Phenyliminooxalic acid dichloride, prepared from oxalic acid, phosphorus pentachloride and aniline in benzene, likewise yielded thiazolidine derivatives on reaction with thioureas (71KGS471). 

---