Phenyllithium, reactions

Phenyl isocyanate, conversion to di-phenylcarbodiimide, 43,31 Phenyl isocyanide, 41,103 Phenyllithium, reaction with allyltri-phenyltin, 41, 30 standardization of, 41, 32 Phenylmagnesium bromide, 41, 91 reaction with ( r(-butyl perbenzoate, 41,91... 

Additional evidence for the chloroacetylenic intermediate in the phenyllithium reaction is therefore necessary. Montgomery and Applegate (1967) have found that l-chloro-2-methylcyclopentene and... 

Benzene cyclopentadienyl ruthenium(II) complex 125 undergoes nucleophilic addition at the arene ligand via the addition of sodium borohy-dride or phenyllithium. Reaction with phenyllithium gives the exo-phenyl cyclohexadienyl derivative 249 in 89% yield (154) [Eq. (32)]. 

Addition of phenyllithium (reaction 7) to the benzyne gives the organolithium compound IV. From one point of view, this is the same reaction sequence observed for the amide ion-ammonia reaction (above), but it stops at the carbanion stage for want of strong acid. (Alternatively, the Lewis acid Li has completed thp sequence.) Addition of water—in this company, a very strong acid -yields (reaction 8) the final product. (The strong acid has displaced the weaker acid Li .)... 

Phenyllithium caimot be formed from fluoroben2ene. Instead, the electronegativity of fluorine makes the ortho hydrogen sufficiently acidic to permit reaction with / -butyUithium in tetrahydrofuran at —50°C to give 2-fluorophenyllithium [348-53-8]. An isomer, 4-fluoropheny11ithium [1493-23-8] was reported to be explosive in the soHd state (167). 

Anionic polymerization of vinyl monomers can be effected with a variety of organometaUic compounds alkyllithium compounds are the most useful class (1,33—35). A variety of simple alkyllithium compounds are available commercially. Most simple alkyllithium compounds are soluble in hydrocarbon solvents such as hexane and cyclohexane and they can be prepared by reaction of the corresponding alkyl chlorides with lithium metal. Methyllithium [917-54-4] and phenyllithium [591-51-5] are available in diethyl ether and cyclohexane—ether solutions, respectively, because they are not soluble in hydrocarbon solvents vinyllithium [917-57-7] and allyllithium [3052-45-7] are also insoluble in hydrocarbon solutions and can only be prepared in ether solutions (38,39). Hydrocarbon-soluble alkyllithium initiators are used directiy to initiate polymerization of styrene and diene monomers quantitatively one unique aspect of hthium-based initiators in hydrocarbon solution is that elastomeric polydienes with high 1,4-microstmcture are obtained (1,24,33—37). Certain alkyllithium compounds can be purified by recrystallization (ethyllithium), sublimation (ethyllithium, /-butyUithium [594-19-4] isopropyllithium [2417-93-8] or distillation (j -butyUithium) (40,41). Unfortunately, / -butyUithium is noncrystaUine and too high boiling to be purified by distiUation (38). Since methyllithium and phenyllithium are crystalline soUds which are insoluble in hydrocarbon solution, they can be precipitated into these solutions and then redissolved in appropriate polar solvents (42,43). OrganometaUic compounds of other alkaU metals are insoluble in hydrocarbon solution and possess negligible vapor pressures as expected for salt-like compounds. 

Phenyllithium can be used in Grignard-type reactions involving attachment of phenyl group, eg, in the preparation of analgesics and other chemotherapeutic agents (qv). It also may be used in metal—metal interconversion reactions leading, eg, to phenyl-substituted siUcon and tin organics. 

Carbanions ia the form of phenyllithium, sodium naphthalene complex, sodium acetyHde, or aromatic Grignard reagents react with alkyl sulfates to give a C-alkyl product (30—33). Grignard reagents require two moles of dimethyl sulfate for complete reaction. 

The addition of phenyllithium to 6-arylpyridazin-3(2Er)-one takes place at position 6 to give 6-aryl-3-oxo-6-phenyl-l,2,3,4-tetrahydropyridazine and the reaction of 6-aryl-2,4-diphenylpyridazin-3(2H)-one with phenyllithium or phenylmagnesium bromide affords 6-aryl-2,3,4,6-pentaphenyl-l,2,3,4-tetrahydropyridazine (80S457). 

Diazirines (3) smoothly add Grignard compounds to the N—N double bond, giving 1-alkyldiaziridines. Reported yields are between 60 and 95% without optimization (B-67MI50800). The reaction is easily carried out on a preparative scale without isolation of the hazardous diazirines and may serve as an easy access to alkylhydrazines. The reaction was also used routinely to detect diazirines in mixtures. The diaziridines formed are easily detected by their reaction with iodide. Phenyllithium or ethylzinc iodide also add to (3) with diaziridine formation. 

The reaction of phenyllithium and alfyl chloride labeled with C reveals that allylic rearrangement occurs. About three-fourths of the product results from bond formation at C-3 rather than C-1. This can be accounted for by a cyclic transition state. ... 

In addition, there is a cleavage reaction whereby a perfluoroorgamc group is cleaved from a metal by a base, for example, phenyllithium [4], ethylmagnesium bromide [5], or a fluoride ion [6] (equations 3-5)... 

The initial product formed when methyl vinyl ketone is mixed with an enamine [such as N,N-dimethylisobutenylamine (10)] is the dihydropyran (11) from a 1,4 cycloaddition (ll,20a,20b). The chemical reactions that the dihydropyran undergoes indicate that it is readily equilibrated with the cyclobutane isomer 12a and zwitterion 12 (11). Treatment of adduct 11 with phenyllithium gives cyclobutane 13, possibly via intermediate 12a (11). 

The first use of chiral oxazolines as activating groups for nucleophilic additions to arenes was described by Meyers in 1984. " Reaction of naphthyloxazoline 3 with phenyllithium followed by alkylation of the resulting anion with iodomethane afforded dihydronaphthalene 10 in 99% yield as an 83 17 mixture of separable diastereomers. Reductive cleavage of 10 by sequential treatment with methyl fluorosulfonate, NaBKi, and aqueous oxalic acid afforded the corresponding enantiopure aldehyde 11 in 88% yield. 

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