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Issue 4, 2024
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From the current literature


Fullerene-dispersed nematic liquid crystal structures: dynamic characteristics and self-organization processes


Research Institute for Laser Physics, Birzhevaya liniya 12, St. Petersburg, 199034, Russian Federation

A possible way to speed up the operation of liquid crystal structures based on nematic mixtures with a charge transfer complex between a fullerene and an organic molecule donor fragment is studied using pyridine and polyaniline monomers and polymers as systems with the donor-acceptor interaction. Self-organization is established to occur in such structures. A more than an order of magnitude reduction in switching time is shown to be achievable. A possible physical mechanism of accelerating the liquid crystal dipole reorientation stimulated with intermolecular complex formation is discussed.

Fulltext pdf (218 KB)
Fulltext is also available at DOI: 10.1070/PU2005v048n04ABEH002101
PACS: 42.70.Df, 42.79.Kr, 61.30.−v, 61.48.+c (all)
DOI: 10.1070/PU2005v048n04ABEH002101
URL: https://ufn.ru/en/articles/2005/4/e/
000231253100005
2005PhyU...48..419K
Citation: Kamanina N V "Fullerene-dispersed nematic liquid crystal structures: dynamic characteristics and self-organization processes" Phys. Usp. 48 419–427 (2005)
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Оригинал: Каманина Н В «Фуллеренсодержащие диспергированные нематические жидкокристаллические структуры: динамические характеристики и процессы самоорганизации» УФН 175 445–453 (2005); DOI: 10.3367/UFNr.0175.200504f.0445

References (50) Cited by (51) ↓ Similar articles (2)

  1. Kamanina N Polymers 15 2819 (2023)
  2. Kausar A Polymer/Fullerene Nanocomposites (2023) p. 87
  3. Kamanina N V Materials 15 2153 (2022)
  4. Kamanina N, Likhomanova S, Zubtsova Yu C 8 43 (2022)
  5. Kamanina N, Toikka A et al Crystals 12 391 (2022)
  6. Toikka A S J. Phys.: Conf. Ser. 2086 012105 (2021)
  7. Toikka A S, Kamanina N V, Zubtcova Yu A 2020 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), (2020) p. 1129
  8. Kamanina N V Journal Of Molecular Liquids 283 65 (2019)
  9. Kamanina N V Fullerenes and Relative Materials - Properties and Applications Chapter 1 (2018)
  10. Kamanina N V, Camposeo A et al Advanced Manufacturing Technologies for Micro- and Nanosystems in Security and Defence, (2018) p. 22
  11. Kamanina N V Nanomechanics Chapter 8 (2017)
  12. Likhomanova S V, Kamanin A A, Kamanina N V J. Phys.: Conf. Ser. 917 042011 (2017)
  13. Kamanina N V, Likhomanova S V et al Journal Of Nanomaterials 2016 1 (2016)
  14. Kamanina N V, Zubtcova Yu A et al Opt. Express 24 A270 (2016)
  15. Likhomanova S V, Kamanina N V J. Phys.: Conf. Ser. 741 012146 (2016)
  16. Likhomanova S V, Kamanina N V J. Opt. Technol. 83 369 (2016)
  17. Kamanina N V, Serov S V et al Journal Of Nanomaterials 2015 1 (2015)
  18. Kamanina N V Advanced Carbon Materials and Technology 1 (2014) p. 273
  19. Likhomanova S V, Kamanina N V Tech. Phys. Lett. 38 425 (2012)
  20. Kamanina N V Tech. Phys. Lett. 38 114 (2012)
  21. Vovk V E, Koval’chuk A V, Lebovka N Liquid Crystals 39 77 (2012)
  22. Kamanina N V, Serov S V et al J Mater Sci: Mater Electron 23 1538 (2012)
  23. Kamanina N V, Shurpo N A et al Acta Phys. Pol. A 120 256 (2011)
  24. Anikina N S, Krivuschenko O Ya et al NATO Science For Peace And Security Series C: Environmental Security Vol. Carbon Nanomaterials in Clean Energy Hydrogen Systems - IISpecial Features and Regularities of Interaction Between Fullerene Molecules and Aromatic Solvents2 Chapter 4 (2011) p. 53
  25. Fullerenes (2011) p. 195
  26. Kamanina N V, Serov S V, Savinov V P Tech. Phys. Lett. 36 40 (2010)
  27. Shurpo N A, Vakshtein M S, Kamanina N V Tech. Phys. Lett. 36 319 (2010)
  28. Sheka E F, Razbirin B S et al J. Exp. Theor. Phys. 108 738 (2009)
  29. Budagovsky I A, Ochkin V N et al Liquid Crystals 36 101 (2009)
  30. Shurpo N A, Serov S V et al Diamond And Related Materials 18 931 (2009)
  31. Sheka E F, Razbirin B S, Nelson D K High Energy Chem 43 628 (2009)
  32. Kamanina N V, Vasil’ev P Ya, Studenov V I J. Opt. Technol. 75 806 (2008)
  33. Kamanina N V, Uskokovic D P Materials And Manufacturing Processes 23 552 (2008)
  34. Kamanina N V, Ya V P et al Molecular Crystals And Liquid Crystals 485 945 (2008)
  35. Kamanin A, Kamanina N Molecular Crystals And Liquid Crystals 486 50/[1092] (2008)
  36. Kamanin A A, Kamanina N V Materials And Manufacturing Processes 23 548 (2008)
  37. Vasilyev P Ya, Kamanina N V Tech. Phys. Lett. 33 8 (2007)
  38. Vasilyev P Ya, Kamanina N V Tech. Phys. Lett. 33 764 (2007)
  39. Kamanina N V MSF 555 363 (2007)
  40. Shulev V A, Kascheev S V et al Molecular Crystals And Liquid Crystals 467 255 (2007)
  41. Kamanin A A, Kamanina N V MSF 555 401 (2007)
  42. Zubtsova Yu A, Vasilyev P Ya et al Molecular Crystals And Liquid Crystals 467 171 (2007)
  43. Kamanina N V, Vasilyev P Ya J Soc Info Display 15 1099 (2007)
  44. Kamanina N V, Voronin Yu M et al Spectrochimica Acta Part A: Molecular And Biomolecular Spectroscopy 66 781 (2007)
  45. Davidenko N A, Derevyanko N A et al High Energy Chem 40 336 (2006)
  46. Kamanin A A, Kamanina N V Tech. Phys. Lett. 32 610 (2006)
  47. Shulev V A, Filippov A K, Kamanina N V Tech. Phys. Lett. 32 694 (2006)
  48. Sadovoy A V, Nazvanov V F Tech. Phys. Lett. 32 659 (2006)
  49. Zubtsova Yu A, Kamanina N V Tech. Phys. Lett. 32 582 (2006)
  50. Davidenko N A, Kokozei V N et al Theor Exp Chem 42 119 (2006)
  51. Kamanina N V, Komolkin A V, Yevlampieva N P Tech. Phys. Lett. 31 478 (2005)
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