Aromatic compounds from Grignard reagents

Hydroperoxides have been obtained from the autoxidation of alkanes, aralkanes, alkenes, ketones, enols, hydrazones, aromatic amines, amides, ethers, acetals, alcohols, and organomineral compounds, eg, Grignard reagents (10,45). In autoxidations involving hydrazones, double-bond migration occurs with the formation of hydroperoxy—azo compounds via free-radical chain processes (10,59) (eq. 20). 

A great deal of carbanirms, generated from C-H-active compounds, the Grignard reagents, the cyanide ion, all kinds of organometallic carbon-lithium derivatives, aromatic amines, phenols, pyrroles, indoles, thiophenes, furans, and other organic compounds with electron-rich carbon atoms have been involved in the Sn reactions as C-nucleoplules [1, 2, 10, 11, 114—117]. 

Other Applications. Thionyl chloride has been used to convert epoxides to vicinal dichlorides and for the preparation of dialkyl sulfides from Grignard reagents. Phenols react with SOCI2 to produce aryl chlorosulfites and diaryl sulfites or nuclear substitution products. As shown in eq 14, Aluminum Chloride catalysis yields symmetric sulfoxides, while in the absence of Lewis acids, aromatic thiosulfonates are the principal products. Primary amines, especially aromatic ones, react with SOCI2 to produce N-sulfiny lamines, which are potent enophiles and useful precursors to some heterocyclic compounds. ... 

Since Grignard reagents can easily be obtained from aryl halides, they are of special value in the s nthesis of many aromatic compounds, particularly as, for reasons already stated (pp. 270, 276), aromatic compounds cannot generally be prepared by means of ethyl acetoacetate and ethyl malonate. 

When the additional nitrogen atom is included in one of the aromatic rings, on the other hand, there is obtained a compound with antihistaminic properties. Reaction of the Grignard reagent from 4-chlorobromobenzene with pyridine-2-aldehyde gives the benzhydrol analog (12). The alcohol is then converted to its sodium salt by means of sodium, and this salt is alkylated with W-C2-chloroethyl)dimethylamine. Carbinoxamine (13) is thus obtained. ... 

This reaction has been extensively used for the synthesis of polyfunctionalized piperidines with a wide range of nucleophiles selected and representative examples are collected in Table 15. From these results, hydrides, Grignard reagents, aluminium derivatives, allylsilane, as well as aromatics can be used as nucleophiles to give the corresponding C-8a functionalized compounds in good yields and, in most cases, excellent selectivities. 

The benzotriazole derivatives 101 (R1 = alkyl) formed from aliphatic aldehydes, ben-zotriazole and primary aromatic amines are reduced by lithium aluminium hydride or sodium borohydride to secondary amines 102, while Grignard reagents yield compounds of type 103116. The reaction has been used for the side-chain alkylation of 2-aminopyridine (equation 42) (direct alkylation occurs predominantly at the ring nitrogen atom). 

Apart from nucleophilic substitution reactions, the chemistry of the halo derivatives of the 7r-deficient heterocycles is fairly similar to that of aromatic halides. Thus, heterobiaryls can be prepared by the Ullman reaction, and Grignard reagents and organolithium compounds can be prepared, although in many instances, and especially with Grignard reagents,... 

Grignard reagents have reacted with diimide dioxides prepared from nitrosohydroxylamines and with toluenesulfonyl derivatives of nitroso-hydroxylamines to prepare unsymmetrical azoxy compounds, including aliphatic-aromatic types. 

Aromatization of a tetrahydroquinolizone (5) by means of acetic anhydride and sulfuric acid or acetic anhydride alone leads to the formation of a variety of mono- or di-substituted quinolizinium compounds. Glover and Jones 8 achieved the synthesis of a number of these derivatives starting from 2-cyanopyridine and condensing it with appropriate Grignard reagents followed by cyclization and aromatization as outlined in Eq. (2). An identical method was simultaneously worked out by Nesmeyanov and Rybinskaya9 for the specific synthesis of 2-substituted quinolizinium compounds. This... 

---