PARAMAGNETIC CENTERS STABILIZING IN RADIOLATED POLYSTYRENE

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Abstract

Low-temperature radiolysis of polystyrene has been investigated by EPR method. The accumulation of stabilized electrons, radical pairs, and at doses >100 kGy – radical structures formed by two reactions – detachment and attachment of atomic hydrogen – has been traced. In the course of radiolysis at 77 K, the reaction of H addition to the double bonds of phenyl groups prevails with the formation of two isomers of cyclohexadienyl radicals (radiation yield 0.25 per 100 eV). The formation of diphenyl cyclohexadienyl radical structures with a 5-component EPR spectrum (STR constant, α = 4.5 mTl) was detected for the first time at doses above 2000 kGy. The spectra of two unknown radicals were detected and identified: breakaway radicals at the α-carbon atom of the polymer chain ~CβH2−Cα·(Ph)−CβH2− and addition radicals at the α-carbon atom ~CαH(Ph)−Cβ·(OH)−CαH(Ph)~. Quantum chemical calculations of the radical structures of cyclohexadienyl radicals showed satisfactory agreement between the calculated and experimental data.

About the authors

S. I Kuzina

Federal Research Center for Problems of Chemical Physics and Medical Chemistry of the Russian Academy of Sciences

Chernogolovka, Russia

I. A Frolov

Federal Research Center for Problems of Chemical Physics and Medical Chemistry of the Russian Academy of Sciences

Chernogolovka, Russia

S. R Allayarov

Federal Research Center for Problems of Chemical Physics and Medical Chemistry of the Russian Academy of Sciences

Email: sadush@icp.ac.ru
Chernogolovka, Russia

References

  1. Wall L.A., Ingalls R.B. // J.Chem.Phys. 1964. V. 41. № 4. Р. 1112.
  2. Милевская И.С., Волькенштейн М.В. // Оптика и спектроскопия. 1962. Т. 12. № 3. С. 381.
  3. Корицкий А.Т., Зубков А.В. / Высокомол. соед., 1967. Т. ІХ(А). № 4. С. 789.
  4. Verma G.S.P., Peterlin А. //J. Polym. Sci. 1969. V. 7(B). № 8. P. 587.
  5. Kuzina S.I., Mikhailov A.l., Goldanskii V.I. // Int. J. Radiat. Phys. Chem. 1976. V. 8. № 4. Р. 503.
  6. Пшежецкий С.Я., Котов А.Г., Милинчук В.К., Рогинский В.А., Тупиков В.И. // ЭПР свободных радикалов в радиационной химии. М.: Химия, 1972.
  7. Kuzina S.I., Mikhailov A.I. // J. Photochem. Photobiol. (А) : Chemistry. 2009. V. 205. № 1. P. 57.
  8. Fessenden R.W., Schuler R.H. // J. Chem. Phys. 1963. V. 38. № 3. Р. 73.
  9. Чарлсби А. // Ядерные излучения и полимеры. М.: ИЛ, 1962 (A. Charlesby. Atomic Radiation and Polymers. Pergamon Press. 1960).
  10. Кузина С.И., Большаков А.И., Куликов А.В., Михайлов А.И. // Журнал физической химии. 2020 T. 94. № 1. С. 136.
  11. Kuzina S.I., Mikhailov A.L. // Eur. Polym. J. 1993. V. 29. № 12. P. 1589.
  12. Charlesby A., Partridge R.H. // Proceed Roy Soc. 1965. V. 283 (А). № 2. Р. 312.

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