1. G. Barbero, D. Olivero, Ions and nematic surface
energy: beyond the exponential approximation for the electric field of
ionic origin. Phys. Rev. E, 65, p. 031701, 1-5 (2002).
2.
G. Barbero, L.R. Evangelista, Adsorption Phenomena and Anchoring Energy
in Nematic Liquid Crystal. Taylor & Francis Group, London, New
York, 2006.
3. A.V. Koval'chuk, Near-electrode adsorption
in isotropic dielectric liquids and liquid crystals: study method,
experimental results, the model. Functional Materials, 8(3), p. 543-547
(2001).
4. E. Bodegom, K. Coelho, Thickness dependence of
the conductivity in p.c.b. liquid crystal. Rev. de Physique appliquel,
13, No.8, p. 427-431 (1978).
5. Yu.A. Nastyshyn, O.V.
Dovgyi, Thickness dependence of electrical conductivity for La-phase of
liotropic system. Ukrainsky fizychny zhurnal, 64, N11, p. 1055-1072
(1995), in Ukrainian.
6. A.J. Twarowski, A.C. Albrecht,
Depletion layer in organic films: low frequency measurements in
polycrystalline tetracene. J. Chem. Phys. 20, No.5, p. 2255-2261 (1979). https://doi.org/10.1063/1.437729
7.
A.V. Koval'chuk, Low-frequency spectroscopy as an investigation method
of the electrode-liquid interface. Functional Materials, 5, No.3, p.
426-430 (1998).
8. A. Adamson, Physical Chemistry of Surfaces. Mir Publ., Moscow, 1976 (in Russian).