Physics of the Solid State
Volumes and Issues
Scaling Describtion of Network Structure of Gelatin Films
Novikov D.V.1
1Kirov State Forest Technical University, St. Petersburg, Russia
Email: dvnovikov65@mail.ru

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The structure of the physical network of macromolecules on the surface of thin films obtained from aqueous solutions of gelatin during cooling from 320 to 273 K have been studied with a resolution of 6-8 nm in the scale range of 8-80 nm using electron microscopy. The analysis of density-density correlation functions has shown that with an increase in the magnitude of the scale, there are structural transitions from coils of macromolecules to fractal aggregates of coils, and then to a homogeneous physical network of particle entanglements. The depth of the intramolecular transformation coil-helix determines the degree of interpenetration of coils and thereby the width of the scale interval of structural transitions. The unfolding of the coils increases the correlation length and spatial uniformity of the polymer network structure. Keywords: thin polymer films, electron microscopy, density-density correlations, network structure, tangles of macromolecules.
  1. T.M. Birshtein. Vysokomolekulyar. soyedinenya 61A, 542 (2019). (in Russian)
  2. I.M. Lifshits, A.Yu Grosberg, A.R. Khokhlov. Uspekhi fiz. nauk, 127, 353 (1979). (in Russian)
  3. G.M. Bartenev, S.Ya. Frenkel', Fizika polymerov. Khimiya, L. (1990). 432 p. (in Russian)
  4. D.V. Novikov, A.N. Krasovsky, N.A. Osmolovskaya, V.I. Efremov. FTT 49, 364 (2007). (in Russian)
  5. H. Boediker, P. Doty. J. Phys. Chem. 58, 968 (1954)
  6. S. Popa-Nita, P. Alcouffe, C. Rochas, L. David, A. Domard. Biomacromolecules 11, 6 (2010)
  7. J. Feder. Fractals. Plenum Press, N. Y., London (1988). 260 p
  8. J. Feder, T. Jossang, E. Rosenqvist. Phys. Rev. Lett. 53, 1403 (1984)
  9. V.G. Baranov, S.Ya. Frenkel, Yu.V. Brestkin. Dokl. AN SSSR 290, 369 (1986). (in Russian)
  10. V.N. Izmailova, S.R. Derkach, M.A. Sakvarelidze, S.M. Levachev, N.G. Voronko, G.P. Yampolskaya. Vysokomolekulyar. soyedinenya 46C, 2216 (2004). (in Russian)
  11. A. Veis. The macromolecular chemistry of gelatin. Academic Press, N. Y. (1964). 433 p
  12. A.N. Krasovsky, V.P. Nikolaev, A.M. Shlyakov, S.S. Mnatsakanov. Vysokomolekulyar. soyedinenya 37A. 273 (1995)
  13. A.N. Krasovsky, V.G. Baranov, E.P. Bochko, S.S. Mnatsakanov. ZhPKh 66, 796 (1993). (in Russian)
  14. A.I. Andreeva. Sravnitelnoe izuchenie vyazkosti i struktura zhelatina v vodnykh i mitsellyarnykh rastvorakh v sisteme izooktan-voda-(bis-2-etilgeksil)sulfosuktsinat natriya. Avtoref. diss. kand. tekh. nauk. SPb., SPbGUKiT, 1998) 29 s. (in Russian)
  15. A. Rich, F.H.C. Krick. Nature 176, 915 (1955)
  16. D.V. Novikov, A.N. Krasovsky. FTT 54, 1582 (2012). (in Russian)
  17. D.V. Novikov, A.V. Varlamov, S.S. Mnatsakanov. Polymer Science 35B, 1693 (1993). (in Russian)
  18. D.V. Novikov, FTT 63, 146 (2021). (in Russian)
  19. A.L. Efros. Fizika i geometriya besporyadka. Nauka, M., (1982), 176 s. (in Russian)
  20. A. Ishara. Statistical Physics. Academic Press, N. Y. (1971). 450 p.]
  21. P. Wojtaszczyk, E.K. Mann, B. Senger, I.C. Voegel, P.J. Schaaf. J. Chem. Phys. 103, 8285 (1995)
  22. D.V. Novikov, ZhPKh 81, 157 (2007). (in Russian)
  23. B.M. Smirnov. Fizika fraktal'nykh klasterov. Nauka, M., (1991). 134 s. (in Russian)

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