The effect of a magnetic field on the generation of free radicals in the interaction of quaternary ammonium compounds with hydroperoxides

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Abstract

The magnetic effects (ME) of a moderate magnetic field (MF, 600 mT) on the rate of radical generation (Wi) in mixed micellar systems of quaternary ammonium compounds with hydroperoxides (QAC-ROOH), measured by the inhibitor method, and the effect of magnetic field on the rate of radical polymerization initiated by radicals, generated from the surface by QAC chemisorbed on a solid carrier upon interaction with hydroperoxide dissolved in the monomer are compared. It has been established that in micellar solutions MF reduces Wi, ME ≈ –0.45. In the case of radical polymerization of styrene containing cumyl hydroperoxide on the surface of mica plates with a chemisorbed monolayer of QAC (CTAB or ACh), the polymerization rate increases in MF.

About the authors

D. A. Krugovov

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Author for correspondence.
Email: kagur1982@mail.ru
Russian Federation, Moscow

A. K. Gatin

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Email: kagur1982@mail.ru
Russian Federation, Moscow

N. V. Potapova

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Email: kagur1982@mail.ru
Russian Federation, Moscow

V. G. Kondratovich

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Email: kagur1982@mail.ru
Russian Federation, Moscow

E. A. Mengele

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Email: kagur1982@mail.ru
Russian Federation, Moscow

O. T. Kasaikina

Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Email: kagur1982@mail.ru
Russian Federation, Moscow

References

  1. Jia Y., Niu L., Ma S. et al. // Progress in Polymer Science. 2017. V. 71. 53.
  2. Paulson D.S. // New Biocides Development / Ed. P.C. Zhu. Washington, DC: Amer. Chem. Soc., 2007. P. 124. (ACS Symp. series. V. 967).
  3. Vereshchagin A.N., Frolov N.A., Egorova K.S., Seitkalieva M.M., Ananikov V.P. // Intern. J. Mol. Sci. 2021. V. 22. P. 6793.
  4. Kwaśniewska D., Chen Y.‐L., Wieczorek D. // Pathogens. 2020. V. 9. P. 459.
  5. Al-Shareeda Z.A., Abramovich R.A., Potanina O.G., Alhejoj H. // Intern. J. Pharm. Qual. Ass. 2020. V. 11. P. 361.
  6. SIDS Initial Assessment Reports: Choline Chloride. Organization for Economic Co-operation and Development (OECD), 2004.
  7. Smith D.G.,Cappai R., Barnham K.J. // Biochim. Biophys. Acta. 2007. V. 1768 . P. 1976.
  8. Masters C.L., Cappai R., Barnham K.J., Villemagne V.L. // J. Neurochem. 2006. V. 97. P. 1700.
  9. Auld D.S., Kornecook T.J., Bastianetto S., Quirion R. // Prog. Neurobiol. 2002. V. 68. P. 209.
  10. Cox M.A., Bassi C., Saunders M.E. et al. // J. Intern. Med. 2020. V. 287. P. 120.
  11. Beckmann J., Lips K.S. // Pharmacology. 2013. V. 92. P. 286.
  12. Kasaikina O.T., Kartasheva Z.S., Pisarenko L.M. // J. General. Chem. 2008. V. 8. P. 1298.
  13. Belysheva T.V., Gatin A.K., Grishin M.V. et al. // Russian J. Phys. Chem. B. 2015. V. 9. № 5. P. 56.
  14. Grishin M.V., Gatin A.K., Slutsky V.G., Kharitonov V.A., Shub B.R. // Russ. J. Phys. Chem. B. 2014. V. 8. № 3. P. 416–419.
  15. Kharitonov V.A, Grishin M.V., Ulasevich S.A., Sarvady S.Yu., Shub B.R. // Russ. J. Phys. Chem. B. 2019. V. 13. № 1. P. 16–24.
  16. Kasaikina O.T., Potapova N.V., Krugovov D.A., Pisarenko L.M. // Kinetics and Catalysis. 2017. V. 58. P. 567.
  17. Krugovov D.A., Mengele E.A., Kasaikina O.T. // Russian Chemical Bulletin. 2014. V. 63. P. 1837.
  18. Kasaikina O.T., Krugovov D.A., Mengele E.A., Berezin M.P., Fokin D.A. // Petroleum Chemistry. 2015. V. 55. P. 535.
  19. Kasaikina O.T, Potapova N.V., Krugovov D.A., Berezin M.P. // Polymer Science. Series B. 2017. V. 59. P. 225.
  20. Buchachenko A.L. // Russ. Chem. Rev. 2014. V. 83. P. 1.
  21. Buchachenko A.L. Magneto-Biology and Medicine. New York. Nova Science Publishers, 2014.
  22. Saunders R. Progress in Biophysics and Molecular Biology. 2005. V. 87. P. 225.
  23. Ghodbane J., Lahbib A., Sakly M., Abdelmetek H // BioMed Reseach Intern. 2013. V. 2013. № 602987. https://doi.org/10.1155/2013/602987
  24. Okano H. // Frontiers in Bioscience. 2008, V. 13. P. 6106.
  25. Colbert A.P., Souder J., Markov M. // Environmentalist. 2009. V. 29. № 2. P. 177.
  26. Zhang B., Tian L. // Bioelectromagnetics. 2020. V. 41. № 8. P. 573.
  27. Zhan A., Luo Y., Qin H., Lin W., Tian L. // Bioelectromagnetics. 2022. V. 43. № 8. P. 462.
  28. Levin P.P., Efremkin A.F., Khudyakov I.V. // Chem. Phys. 2017. V. 495. P. 23.
  29. Rintoul I., Wandrey C. // Polymer. 2007. V. 48. P. 1903.
  30. Buchachenko A.L., Lawler R.G. // Acc. Chem. Res. 2017. V. 50. P. 877.
  31. Anatoly B., Dmitry K. // J. Phys. Chem. Biophys. 2018. V. 8. P. 272.
  32. Eichwald C., Walleczek J. // Biophys. J. 1996. V. 71. Р. 623.
  33. Diaconu A., Nita L.E., Chiriac A.P., Butnaru M. // Intern. J. Biol. Macromol. 2018. V. 119. P. 974.
  34. Yu J., Jin D., Chan K. et al. // Nat. Commun. 2019. V. 10. P. 5631.
  35. Kasaikina O.T., Pisarenko L.M. // Russian Chemical Bulletin. 2015. V. 10. P. 2319.
  36. Potapova N.V., Kasaikina O.T., Berezin M.P., Plaschina I.G. // Kinetics and Catalysis. 2020. V. 61. P. 700.
  37. Ozhogina O.A., Kasaikina O.T. // Free Radical. Biol. Med. 1995. V. 19. № 5. P. 575..
  38. Kasaikina O.T., Potapova N.V., Krugovov D.A., Plashchina I.G. // Russian Chemical Bulletin. 2018. V. 11. P. 2141.
  39. Kartasheva Z.S., Kasaikina O.T. // Russian Chemical Bulletin. 1994. V. 10. P. 1752.
  40. Buchachenko A.L., Sagdeev R.Z., Salikhov K.M. Magnetic and Spin Effects in Chemical Reactions. Novosibirsk: Nauka, 1978 [in Russian].
  41. Salikhov K.M. Magnetic Isotope Effect in Radical Reaction. Wien: Springer, 1996.
  42. Levin P.P., Shafirovich V.Ya., Kuzmin V.A. // J. Phys.Chem. 1992. V. 96. P. 200.
  43. Levin P.P., Kuzmin V.A. // Chem. Phys. 1992. V. 162. P. 79.
  44. Levin P.P., Efremkin A.F., Khudyakov I.V. // Photochem. Photobiol. Sci. 2015. V. 14. P. 891.
  45. Gatin A.K., Grishin M.V., Prostnev A.S. et al. // Russ. J. Phys. Chem. B. 2022. V. 16. № 3. P. 468.
  46. Grishin M.V., Gatin A.K., Slutskii V.G. et al. // Russ. J. Phys. Chem. B. 2022. V. 16. № 3. P. 395.
  47. Gatin A.K., Sarvady S.Yu., Dokhlikova N.V., Grishin M.V. // Russ. J. Phys. Chem. B. 2021. V. 15. № 3. P. 367.
  48. Grishin M.V., Gatin A.K., Slutsky V.G. et al. // Russian J. Phys. Chem. B. 2021. V. 15. № 5. P. 777–781.

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