Effect of solid phase on the selectivity of alkyl radical formation by gamma-irradiation of branched alkanes

International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry Pub Date : 1992-08-01 DOI:10.1016/1359-0197(92)90072-N

Hitoshi Koizumi, Masatoshi Hashino, Tsuneki Ichikawa, Hiroshi Yoshida

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Abstract

ESR and electron spin echo measurements of alkyl radicals generated by γ-irradiation of glassy and crystalline branched alkanes C₁₀ ≈ C₁₃ have been carried out to elucidate the effect of molecular structure and solid phase on the selectivity of alkyl radical formation. Alkyl radicals generated and stabilized at 77 K in the glassy alkanes are secondary penultimate radicals. Tertiary radicals and secondary radicals other than the penultimate one are not generated either by hydrogen abstraction or from ionized or exited molecules. In the crystalline alkanes, however, a small amount of secondary internal radicals are generated in addition to the predominant formation of the secondary penultimate radicals. It is concluded that the detachment of C-H hydrogen preferentially takes place at the location where the motion of carbon atoms assisting the detachment of the C-H hydrogen easily occurs.

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固相对支链烷烃γ辐照形成烷基自由基选择性的影响

用ESR和电子自旋回波测量了γ辐照下玻璃状和晶体状支链烷烃C10≈C13所产生的烷基自由基，阐明了分子结构和固相对烷基自由基形成选择性的影响。玻璃烷烃在77 K时生成并稳定的烷基自由基是二级自由基。除倒数第二自由基外，叔自由基和次级自由基既不是由抽氢产生的，也不是由电离或逸出的分子产生的。然而，在结晶烷烃中，除了主要形成次级倒数自由基外，还产生少量的次级内自由基。结果表明，碳氢分离优先发生在碳原子运动有利于碳氢分离的位置。

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International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry

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