Kazan (Volga region) Federal University, KFU
KAZAN
FEDERAL UNIVERSITY
 
THE FILM PROPERTIES OBTAINED FROM ANILINE BY PLASMA DEPOSITION AT ATMOSPHERIC PRESSURE
Form of presentationArticles in international journals and collections
Year of publication2024
Языканглийский
  • Vakhitov Iskander Rashidovich, author
  • Kuklin Vladimir Aleksandrovich, author
  • Lunev Ivan Vladimirovich, author
  • Pudovkin Maksim Sergeevich, author
  • Danilaev Maksim , author
  • Drobyshev Sergey , author
  • Karandashev Sergey , author
  • Bibliographic description in the original language Danilaev, M. P., Vakhitov, I. R., Drobyshev, S. V., Lounev, I. V., Kamaliev, B. Z., Karandashov, S. A., ... & Pudovkin, M. S. (2023). The Film Properties Obtained from Aniline by Plasma Deposition at Atmospheric Pressure. Inorganic Materials: Applied Research, 14(3), 641-648.
    Annotation Abstract—The properties of polymer films obtained in plasma of barrier discharge at atmospheric pressure from aniline of amorphous form with simultaneous formation of carbon particles in the films were studied. The threshold of discharge energy density was established (~30 mJ/m), beginning from which a continuous film filled with agglomerates of carbon particles can be obtained. The structure of such films corresponds to the form typical of amorphous polymers. Carbon particles form agglomerates, the concentration of which weakly depends on the discharge energy density and constitutes ~(4–7) × 104 1/cm2, which does not allow increasing the conductivity. It was shown that the main contribution to the conductivity of films obtained from aniline and filled with carbon particles is made by the value of their moisture saturation. It was found that the creep of the material decreases with growth of the energy density, and hardness increases. This is associated with the formation and growth of the number of crosslinks in the samples with an increase in the energy input. The absolute values of Martens hardness correspond to the lower boundary for polyaniline, which is due to the small molecular weight of the obtained polymer.
    Keywords atmospheric pressure barrier discharge, carbon particles, conductivity
    The name of the journal Inorganic Materials: Applied Research
    URL https://link.springer.com/article/10.1134/S2075113323030103
    Please use this ID to quote from or refer to the card https://repository.kpfu.ru/eng/?p_id=294253&p_lang=2
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