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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 749Copolymers and Proton Conducting Films Based on...

Copolymers and Proton Conducting Films Based on N-Vinylpyrazole

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Abstract:

The copolymers of N-vinylpyrazole with vinyl chloride and methyl methacrylate were obtained by radical polymerization. Constants reactivity and microstructure parameters of copolymers were calculated and their properties were studied. The sol-gel synthesis of obtained copolymers with tetraethyl orthosilicate results in a hybrid organic-inorganic composites. Films with proton conductivity to 7.8·10^-3 S·sm^-1 were formed on the basis the copolymers and composites.

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Periodical:

Advanced Materials Research (Volume 749)

Pages:

71-76

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.749.71

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Online since:

August 2013

Authors:

Oksana Lebedeva, Yury Pozhidaev, Evgenya Sipkina, Alexandra Chesnokova, Nikolay Ivanov

Keywords:

Copolymerization, Hybrid Organic-Inorganic Composites, Methyl Methacrylate, N-Vinylpyrazole, Proton-Conducting Films, Sol-Gel Synthesis, Tetraethyl Orthosilicate, Vinyl Chloride

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] M. Getlik, C. Grütter, J.R. Simard, H.D. Nguyen, A. Robubi, B. Aust, W.A.L. Otterlo and D. Rauh: Europ. J. Med. Chem. Vol. 48 (2012), p.1.

[2] L. -L. Xu, C. -J. Zheng, L. -P. Sun, J. Miao and H. -R. Piao: Europ. J. Med. Chem. Vol. 48 (2012), p.174.

[3] V. I. Zhuravlev and S. A. Red'kin: Russian Journal of Non-ferrous Metals. Vol. 52 (2011) p.416.

[4] O. V. Lebedeva, Yu. N. Pozhidaev, N. S. Shaglaeva, S. S. Bochkareva and L. A. Es'kova: Russian Journal of Applied Chemistry. Vol. 84 (2011), p.128.

[5] A. L. Rusanov, D. Yu. Likhatchev and K. Müllen: Russian Chemical Reviews. Vol. 71 (2002), p.761.

[6] A. B. Yaroslavtsev, Yu. A. Dobrovolsky, L. A. Frolova, E. V. Gerasimova, E. A. Sanginov and N. S. Shaglaeva: Russian Chemical Reviews. Vol. 81 (2012), p.191.

DOI: 10.1070/rc2012v081n03abeh004290

[7] S. Li, Z. Zhen, M. Liu and M. Nakanishi: Electrochim. Acta. Vol. 8 (2006), p.1351.

[8] G. G. Skvortsova, E. S. Domnina, L. A. Shestova, V. K. Voronov and V. V. Keiko: Chemistry of Heterocyclic Compounds. Vol. 12 (1976), p.1033.

DOI: 10.1007/bf00480401

[9] J. P. Kennedy, T. Kelen and F. Tudos: Journal of Polymer Science. Part A: Polymer Chemistry. Vol. 13 (1975), p.2277.

[10] E. N. Danilovtseva, V. V. Annenkov, E. S. Domnina and A. I. Mikhaleva: Polymer Science. Series B. Vol. 38 (1996), p.443.

[11] O. V. Lebedeva, Yu. N. Pozhidaev, N. S. Shaglaeva, A. S. Pozdnyakov and S. S. Bochkareva: Theoretical Foundations of Chemical Engineering. Vol. 44 (2010), p.786.

DOI: 10.1134/s0040579510050258

[12] M. G. Voronkov, V. P. Mileshkevich and Yu. A. Yuzhelevskii: The Siloxane Bond, Physical Properties and Chemical Transformations (Plenum Publishing Corporation, New York 1978).

DOI: 10.1080/00945717908069783

[13] O. F. Mohammed, D. Pines, J. Dreyer: Science. Vol. 310 (2005), p.83.

[14] J. A. Mansonand and L. H. Sperling: Polymer blends and composites (Plenum Press, New York and London 1976).

[15] I. N. Tsvetkova, O. A. Shilova, M. G. Voronkov, Yu. P. Gomza and K. M. Sukhoy: Glass Physics and Chemistry. Vol. 30 (2004), p.68.

[16] Yu. N. Pozhidaev, O. V. Lebedeva, S. S. Bochkareva, N. S. Shaglaeva, L. V. Morozova and M. G. Voronkov: Russian Journal of Applied Chemistry. Vol. 81 (2008), p.1837.

DOI: 10.1134/s1070427208100248

[17] A.B. Yaroslavtsev: Russian Chemical Reviews. Vol. 78 (2009), p.1013.