Affiliation:
1. School of Pharmacy and Chemistry, Liverpool John Moores University, Byrom Street, Liverpool L3 3AF, UK
Abstract
Exposure of hexamethyl(Dewar)benzene (HMD) to γ-rays in a solid CFC13 matrix at 77K generated the corresponding radical cation (HMD+•) as shown by the observation of hyperfine coupling (A = 9·5 G) to the protons of four equivalent methyl groups: thus the 2B2 state (I) of the ion is established. On annealing to 140 K, ring-opening occurred to give the hexamethylbenzene cation (HMB+•). When CF2ClCFCl2 was used as the matrix material, a completely different spectrum was produced, consisting of seven lines with a common spacing of 14 G. Results obtained using different batches of the freon, and from careful annealing and concentration studies, establish that the low-field line is not part of the remaining six-line spectrum which can be assigned to the allylic radical (III), formed by deprotonation of the parent cation. γ-Irradiation of HMD in 2- methyltetrahydro-furan (MeTHF) followed by annealing gave the ψs* Jahn-Teller distorted form of the (ring-opened) HMB-• radical anion [A(6H) = 9 G] and so the parent anion is unstable, as is the cation. This was confirmed by an identical spectrum being obtained after the irradiation of an authentic sample of HMB in MeTHF. γ-Irradiation of pure HMD gave rise to a spectrum that can be analysed in terms of (III) and the endo H-atom adduct of HMD (IV). Hexamethylbenzene (HMB) on γ-irradiation in solid CFC13 gave the parent radical cation (HMB+•) At 130 K, this has a 6·7 G splitting and correct binomial intensities for 18 equivalent protons; on cooling to 77 K, the cation distorts so that a ψA type SOMO is adopted with four strongly coupled (A = 11·5G) and two weakly coupled (A = −2·8G) methyl groups. γ-Irradiation of pure HMB gave only broad features which we ascribe to a mixture of pentamethylbenzyl (VIII) and hexamethylcyclohexadienyl (IX) radicals, in which proton hyperfine structure is unresolved due to a range of restricted conformations being adopted by various methyl groups because of steric hindrance between them.
Subject
Physical and Theoretical Chemistry
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献