Reactivity of the 5-hexenyl radical toward the anion of 2-nitropropane and borohydride anion

The dianion of acenaphthylene can be converted into the 5-unsaturated bromides is responsible for this side reaction. From the products of the reactions with 3,3-dimethylallyl hydroanion by protonation with one equivalent of methanol. Subsequent reaction with electrophiles such as allyl bromide bro

Recent chemical, electrochemical and electron spin resonance studies of halogenated nitroaromatics have shown that loss of anionic substituents is a frequently observed pathway for anion radical decomposition 1 -14. The neutral radicals which result from loss of the anionic substituents react by num

Swmary: Deprotonation of 2-diethyIumino-5-phenyZ-3!-azepine with strong bases affords a highZy coloured anion, which reacts with deuterim oxide or with an appropriate electrophile to give an azepine bearing the new substituent at C-3. During the last decades several papers have appeared dealing wit

ESR. and, in part, ENDOR. studies are reported on the radical anions of 5,5'and 6,6'-biazulenyl (1 and 2, resp.), as well as on their 1,1',3,3'-tetradeuterioderivatives (1-d4 and 2-d4). The reduction processes of 1 and 2 leading to these radical anions (1Q and 28) and the dianions (1" and 2e) have b