Abstract: | The reaction of 6-chlorohex-1-ene 1 with lithium powder and a catalytic amount of 4,4′-di-tert-butylbiphenyl (DTBB, 5% molar) in THF at −78°C gives the corresponding organolithium intermediate 2, which by reaction with different electrophiles affords, after hydrolysis with diluted hydrochloric acid, the expected products 3. The same reaction performed at −30°C gives cyclopentyl derivatives 5, probably by cyclisation of the open-chain intermediate 2 to give the cyclic organolithium compound 4. When the double bond in the starting material contains an alkyl substituent, for instance compounds 6 and 9, the corresponding cyclisation is inhibited, so the corresponding acyclic products 8 and 11 are respectively, obtained. However, when the substituent at the same positions is a phenyl group, like in starting materials 12 and 15, the cyclised products 14 and 17 were respectively, isolated. In the case of the secondary starting chlorinated material 18, the reaction can be directed to both, the acyclic products 20 or the cyclic ones 22, working at −78 or −30°C, respectively, as it happens in the case of the unsubstituted chlorinated material 1. For the tertiary chloro derivative 23, only the cyclic compound 27 could be isolated at −30°C due to the great instability of the corresponding tertiary organolithium intermediate 24, which undergoes a proton abstraction even at −78°C. From allyl 2-chlorophenyl ether 28 or N,N-diallyl-2-chloroaniline 32, only the corresponding cyclic compounds 31 and 33, respectively, are isolated either at −78 or at −30°C. In all cases a carbanionic cyclisation, better than a radical one, is postulated to occur as mechanistic pathway. |