Study of the characteristic features of the strongest broadening of the EPR signal in polystyrene-based polymer compositions
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Author(s)
Abstract
A composite material based on polystyrene with the addition of microparticles of soot has been developed. The electron paramagnetic resonance (EPR) spectra were studied
Keywords
composite material, polystyrene, microparticles of soot, electron paramagnetic resonance, X-ray fluorescence analysis, paramagnetic centers
Cite this paper
Umarov A.V., Kamalova D.,
Study of the characteristic features of the strongest broadening of the EPR signal in polystyrene-based polymer compositions
, SCIREA Journal of Chemistry.
Volume 5, Issue 1, February 2020 | PP. 1-11.
References
| [ 1 ] | Липатов Ю.С. Физико-химические основы наполнения полимеров. М.: Химия, 1991.-304 с. |
| [ 2 ] | Умаров А.В., Абдурахманов У. / Разработка и технология резистивных композиционных материалов / Монография / Наманган: 2015. |
| [ 3 ] | Умаров A.B., Касимова Г.А., Аскаров M.A. Исследование температурной зависимости теплоемкости полимерных композиций // Физ. тверд, тела (С.-Пб).-1995. -37, № 7. С.2213-2214 |
| [ 4 ] | D. Kamalova, A. Umarov, S. Negmatov, N. Abed, K. Negmatova Thermal Conductivity of SOOT Filled Compositions Based on POLYSTYRENE, Journal of Advanced Research in Science, Engineering and Technology, Vol. 5, 9 , 2018, p. 6963-6968 |
| [ 5 ] | Umarov A.V., Khamidov Sh.R., Kasimova G.A. Abstracts of the scientific and technical conference: Actual problems of semiconductor structural elements. Fergana, Uzbekistan. 1992, p. 17 (Russ.). |
| [ 6 ] | D.I.Kamalova. Research of characteristics of the signal of EPR of composites. Advanced materials research. Switzerland. 2017. Vol. 1145. pp. 230-233. |
| [ 7 ] | В.Х. Сабанов, А.А. Вакар, О.А. Давыдова, Е.С. Климов, модифицированных перимидинами изучение методом ЭПР пластмассовых композиций, Известие ВУЗов северо-кавказский регион, естественные науки, 2005, 2, 37-39. |
| [ 8 ] | Gendler, T. S., A. A. Novakova, and E. V. Smirnov (2004), Magnetic properties of polymer nanocomposites containing magnetite nanoparticles, in Paleomagnetism and Rock Magnetism: Theory, Experiments, and Application, p. 144, Kazan University Publ., Kazan.. |
| [ 9 ] | Gendler, T. S., V. P. Shcherbakov, M. J. Dekkers, A. Gapeev, S. K. Gribov, and E. McClelland (2005), The lepidocrocitemaghemite-hematite reaction chain: Acquisition of chemical remanent magnetization by maghemite: Its magnetic properties and thermal stability, Geophys. J. Int., 160, 815. |
| [ 10 ] | Кява Я. ЭПР спектроскопия неупорядоченных твердых тел. Рига. 1388. Стр. 320 |
| [ 11 ] | B. Q. Yuan, Venkata S.A. Challa, R.D.K. Misra, Nanoscale elastic-plastic deformation in clay-reinforced nanostructured materials: The response of phase and structural morphology, Materials Science and Technology 22(7):742-755 |
| [ 12 ] | E. V. Smirnov, A. V. Volkov, and M. A. Moskvina (2005a), Magnetic properties dependence on iron oxide nanoparticles concentration in polymer nanocomposites, American Inst. Of Physics AIP Conference Proceeding, 765, 273. |
| [ 13 ] | Вертц Дж., Болтон Дж. Теория и практические приложения метода ЭПР. М. Мир. 1975. Стр. 549. |
| [ 14 ] | Альтшулер С.А., Козырев Б.М. Электронный парамагнитный резонанс. М. Наука. 1972. Стр. 672. |
| [ 15 ] | Пул Ч. Техника ЭПР спектроскопии. Мир. 1970. Стр. 558. |