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Russian Chemical Reviews, 1999, Volume 68, Issue 10, Pages 821–857
DOI: https://doi.org/10.1070/RC1999v068n10ABEH000446 (Mi rcr1488) 		 
This article is cited in 62 scientific papers (total in 62 papers)

Ferroelectricity of polymers based on vinylidene fluoride

V. V. Kochervinskii

Troitsk Institute for Innovation and Fusion Research
English full-text Citations (62) Russian version article
DOI: https://doi.org/10.1070/RC1999v068n10ABEH000446
Abstract: Characteristics of the ferroelectricity in polyvinylidene fluoride (PVDF) and copolymers based on vinylidene fluoride (VDF) with different previous thermomechanical histories are analysed. Switching of polarisation and the fluctuation mechanism of formation of new nuclei upon the appearance of conformation defects such as kink bonds are considered. The role of the space charge, which stabilises the new polarisation position, is noted. It is shown that the Curie transition can be either a first- or second-order phase transition depending on the copolymer composition. The influence of the morphology of PVDF on some ferroelectric characteristics is found. In particular, the morphology of thick lamellar crystals is favourable for enhanced spontaneous polarisation. It is shown that a ferroelectric structure approaching the texture of an ideal single crystal can be created in Langmuir–Blodgett films. As the number of unimolecular layers decreases, the concentration of conformational defects in these films increases and the crystallographic order in the lattice is violated. This intensifies the low-temperature Curie transition. The bibliography includes 247 references.
Received: 23.11.1998
Bibliographic databases:
Document Type: Article
UDC: 541(15-64) : 537.5
Language: English
Original paper language: Russian


Citation: V. V. Kochervinskii, “Ferroelectricity of polymers based on vinylidene fluoride”, Usp. Khim., 68:10 (1999), 904–943; Russian Chem. Reviews, 68:10 (1999), 821–857
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  • https://doi.org/10.1070/RC1999v068n10ABEH000446
  • https://www.mathnet.ru/eng/rcr/v68/i10/p904
    • This publication is cited in the following 62 articles:
    1. Riyadh F. Halawani, Nadhem Missaoui, Jassem Wannassi, Amel Haouas, Hamza Kahri, Fahed A. Aloufi, Bassem Jamoussi, Zainab Hassan Alnakhli, Amira k. Hajri, Houcine Barhoumi, Mohsen Ahmadipour, J Mater Sci: Mater Electron, 36:5 (2025)  crossref
    2. K. A. Verkhovskaya, M. A. Pankova, I. I. Popov, L. N. Korotkov, Kristallografiâ, 69:6 (2024), 998  crossref
    3. K. A. Verkhovskaya, M. A. Pankova, I. I. Popov, L. N. Korotkov, Crystallogr. Rep., 69:6 (2024), 886  crossref
    4. Evgeniya Buryanskaya, Stanislav Kondrashov, Alexey Osipkov, Sergey Lermontov, Nikita Vlasenko, Daria Derimedved, Tuyara Petrova, Mstislav Makeev, Dmitry Kiselev, 2024 8th International Conference on Information, Control, and Communication Technologies (ICCT), 2024, 1  crossref
    5. René Hafner, Peter Klein, Herbert M. Urbassek, J. Phys. Chem. B, 127:32 (2023), 7181  crossref
    6. Carmela Mangone, Wisut Kaewsakul, Michel Klein Gunnewiek, Louis A E M Reuvekamp, Jacques W M Noordermeer, Anke Blume, Smart Mater. Struct., 31:9 (2022), 095034  crossref
    7. Rashid Dallaev, Tatiana Pisarenko, Dinara Sobola, Farid Orudzhev, Shikhgasan Ramazanov, Tomáš Trčka, Polymers, 14:22 (2022), 4793  crossref
    8. V. V. Kochervinskii, M. A. Shapetina, S. A. Bedin, S. A. Baskakov, Yu. M. Shulga, Bull. Russ. Acad. Sci. Phys., 86:12 (2022), 1483  crossref
    9. K. A. Verkhovskaya, I. I. Popov, N. A. Tolstykh, L. N. Korotkov, Ferroelectrics, 591:1 (2022), 211  crossref
    10. V. V. Kochervinskii, M. A. Gradova, O. V. Gradov, A. A. Maltsev, I. A. Malyshkina, G. A. Kirakosyan, D. A. Kiselev, R. A. Chertovskykh, M. G. Tedoradze, A. I. Zvyagina, B. V. Lokshin, M. I. Buzin, Colloid Polym Sci, 300:6 (2022), 721  crossref
    11. V. V. Kochervinskii, S. A. Baskakov, I. A. Malyshkina, D. A. Kiselev, T. S. Ilina, M. G. Rybin, S. A. Bedin, E. V. Chubunova, Y. M. Shulga, Ferroelectrics, 600:1 (2022), 59  crossref
    12. Wang L., Su Yu., Zhang J., Zhang H., Dong Q., J. Appl. Polym. Sci., 137:6 (2020), 48345, 48345  crossref  isi
    13. Chu Zh., Liu L., Liao Y., Li W., Zhao R., Ma Zh., Li Yu., Polymer, 203 (2020), 122773  crossref  isi
    14. Verkhovskaya K.A., Popov I., Korotkov L.N., Ferroelectrics, 567:1, SI (2020), 223–229  crossref  isi
    15. Chu Zh., Liu L., Lou Ya., Zhao R., Ma Zh., Li Yu., Ind. Eng. Chem. Res., 59:10 (2020), 4459–4471  crossref  isi
    16. Kochervniskii V.V. Astakhov V.A. Bedin S.A. Malyshkina I.A. Shmakova N.A. Korlyukov A.A. Buzin I M. Volkov V.V., Colloid Polym. Sci., 298:9 (2020), 1169–1178  crossref  isi
    17. Kochervinskii V.V. Malyshkina I.A. Kiselev D.A. Ilina T.S. Kozlova V N. Shmakova N.A. Korlyukov A.A. Gradova M.A. Bedin S.A., J. Appl. Polym. Sci., 137:41 (2020), e49235  crossref  isi
    18. Shamim Shahrokhi, Wenxiu Gao, Yutao Wang, Pradeep Raja Anandan, Md Zahidur Rahaman, Simrjit Singh, Danyang Wang, Claudio Cazorla, Guoliang Yuan, Jun‐Ming Liu, Tom Wu, Small Methods, 4:8 (2020)  crossref
    19. V. V. Kochervinskii, Bull. Russ. Acad. Sci. Phys., 84:2 (2020), 144  crossref
    20. Kochervinskii V.V. Gradova M.A. Gradov O.V. Kiselev D.A. Ilina T.S. Kalabukhova A.V. Kozlova N.V. Shmakova N.A. Bedin S.A., J. Appl. Phys., 125:4 (2019), 044103  crossref  isi  scopus
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