References
- Xianyu H, Wu S-T, Lin C-L. Dual frequency liquid crystals: a review. Liq Cryst. 2009;36(6–7):717–726.
- Mrukiewicz M, Perkowski P, Garbat K, et al. Molecular relaxations in dual-frequency nematic liquid crystals. Liq Cryst. 2014;41(11):1537–1544.
- Xianyu H, Zhao Y, Gauza S, et al. High performance dual frequency liquid crystal compounds. Liq Cryst. 2008;35(9):1129–1135.
- Gu M Effects of dielectric relaxation on director dynamics in uniaxial nematic liquid crystals. A PhD dissertation. Kent State University. 2009. http://www.e-lc.org/dissertations/tmp/Mingxia__Gu,_2009_07_07_02_24_59.pdf
- Schadt M. Low-frequency dielectric relaxations in nematics and dual-frequency addressing of field effects. Mol Cryst Liq Cryst. 1982;89(1–4):77–92.
- Belyaev VV, Chigrinov VG. Dynamics of switching of nematic liquid crystal with low frequency dispersion of dielectric constant. Sov Phys Crystallogr. 1978;23:811.
- Belyaev VV, Blinov LM, Rumyantsev VG, et al. Method of modulation of monochrome emission. USSR Author Certificate No.678966. MCI: G02F1/13. Filed 1.08.1977.
- Mrukiewicz M, Perkowski P, Garbat K, et al. Dielectric properties of compounds creating dual-frequency nematic liquid crystals. Acta Physica Polonica A. 2013;124(6A):940–945.
- Mazur R, Piecek W, Raszewski Z, et al. Nematic liquid crystal mixtures for 3D active glasses application. Liq Cryst. 2017;44(2):417–426.
- Minkin VI, Osipov OA, Zhdanov YA. Dipole moments in organic chemistry. New York: Plenum Press; 1970. p. 288.
- Osipov OA, Minkin VI. Handbook on dipole moments. Izd. Moscow: Vysshaya shkola; 1965.
- Urban S, Dunmur DA, Fukuda A, et al. Static Dielectric Properties of Nematics, physical properties of liquid crystals: nematics. London: IEE; 2000. p. 267–276.
- Kresse H, Dunmur DA, Fukuda A, et al. Dynamic dielectric properties of nematics, physical properties of liquid crystals: nematics. London: IEE; 2000. p. 277–287.
- Chausov DN, Kurilov AD, Belyaev VV, et al. Parameters of LC molecules’ movement measured by dielectric spectroscopy in wide temperature range. Opto-Electron Rev. 2018;26(1):44–49.
- Peterson MSE, Georgiev G, Atherton TJ, et al. Dielectric analysis of the interaction of nematic liquid crystals with carbon nanotubes. Liq Cryst. 2018;45(3):450–458.
- Shukla RK, Chaudhary A, Bubnov A, et al. Multi-walled carbon nanotubes-ferroelectric liquid crystal nanocomposites: effect of cell thickness and dopant concentration on electro-optic and dielectric behaviour. Liq Cryst. 2018;45(11):1672–1681.
- Kaur S, Dierking I, Gleeson HF. Dielectric spectroscopy of polymer stabilised ferroelectric liquid crystals. Eur Phys JE Soft Matter. 2009;30(3):265–274.
- Barnik MI, Belyaev SV, Grebenkin MF, et al. Electrical, optical and visco-elastic properties of the liquid crystal mixture of azoxy. Sov Phys Crystallogr. 1978;23:451.
- Grebenkin MF, Ivashchenko AV. Zhidkokristallicheskiye Materialy (Liquid crystalline materials). Moscow: Khimiya; 1989.
- Belyaev BA, Drokin NA, Shabanov VF. Dielectric relaxation of trans-4-propyl-(4-cyanophenyl)-cyclohexane liquid crystals. Phys Solid State. 2004;46:579–583.
- Gornitska OP, Koval’chuk AV, Koval’chuk TN, et al. Dielectric properties of nematic liquid crystals with Fe3O4 nanoparticles in direct magnetic field. Semicond Phys Quantum Electron Optoelectron. 2009;12(3):309–314.
- Koval’chuk A, Dolgov L, Yaroshchuk O. Dielectric studies of dispersions of carbon nanotubes in liquid crystals 5CB. Semicond Phys Quantum Electron Optoelectron. 2008;11(4):337–341.
- Larionov AN, Bogdanov DL, Larionova NN, et al. Dielectric relaxation and visco-elastic properties of NLC. Condens Media Interface Boundaries. 2015;17(3):364–370.
- Baryshnikov SV, Milinskiy AY, Charnaya EV, et al. Dielectric studies of ferroelectric NH4HSO4 nanoparticles embedded into porous matrices. Ferroelectrics. 2016;493(1):85–92.
- Ivashov SI, Bugaev AS, Zhuravlev AV, et al. Holographic subsurface radar technique for nondestructive testing of dielectric structures. Tech Phys. 2018;63(2):260–267.
- Jadzyn J, Czechowski G, Mucha M, et al. Dielectric relaxation in polymer dispersed nematic liquid crystal films. Liq Cryst. 1999;26(3):453–456.
- Singh G, Prakash GV, Kaur S, et al. Molecular relaxation in homeotropically aligned ferroelectric liquid crystals. Phys B Condens Matter. 2008;403(18):3316–3319.
- Belyaev BA, Drokin NA, Shabanov VF, et al. Dielectric properties of liquid crystals of the cyano derivative compounds with different fragments in the molecular core. Phys Solid State. 2004;46:574–578.
- Perkowski P. Dielectric spectroscopy of liquid crystals. Electrodes resistivity and connecting wires inductance influence on dielectric measurements. Opto-Electron Rev. 2012;20(1):79–86.
- Rybakov DO, Belyaev VV. Electrical double layers and their effect on the low-frequency dielectric permittivity of 4-n-pentyl-4‘-cyanobiphenyl (5СВ). Liq Cryst Appl. 2018;18(4):40–47.
- Kuzuu N, Doi M. Constitutive equation for nematic liquid crystals under weak velocity gradient derived from a molecular kinetic equation. J Phys Soc Jpn. 1983;52:3486.
- Belyaev VV, Nemtsov VB. Molecular friction and rotational viscosity of nematic liquid crystals, Russ. J Phys Chem. 1992;66:1471–1476.
- Belyaev VV. Viscosity of nematic liquid crystals. Russ Chem Rev. 1989;58(10):P.917–944.
- Belyaev VV. Viscosity of nematic liquid crystals. Cambridge, UK: Cambridge International Science Publishing; 2010.p. 230. ISBN-13: 978-1-904602-08-8.
- Chausov DN, Kurilov AD, Belyaev VV, et al. Parameters of LC molecules’ movement measured by dielectric spectroscopy in wide temperature range. Opto-Electron Rev. 2018;26:44–49.
- Perkowski P, Mrukiewicz M, Laska M, et al. Dielectric behavior of dual-frequency nematic at extra low temperatures. Phase Trans. 2013;86:113–122.
- Urban S, Kula P, Spadlo A, et al. Dielectric properties of selected laterally fluoro-substituted 4, 4-dialkyl, dialkoxy and alkyl-alkoxy[1:1ʹ;4ʹ:1]terphenyls. Liq Cryst. 2010;37:1321–1330.