Publications by A.V. Emelyanenko

List of key publications by A. V. Emelyanenko

1. A. V. Emelyanenko and M. A. Osipov,: Influence of dimerization on the nematic-isotropic phase transition in strongly polar liquid crystals.
Liquid Crystals. 26(2), 187 (1999).
2. A. V. Emelyanenko and M. A. Osipov,: Nematic-isotropic phase transition in polar liquid crystals. I. Statistical theory.
Crystallography Reports. 45(3), 501 (2000).
3. A. V. Emelyanenko and M. A. Osipov,: Nematic-isotropic phase transition in polar liquid crystals. II. Role of the dispersion interaction.
Crystallography Reports. 45(3), 510 (2000).
4. A. V. Emelyanenko, M. A. Osipov, and D. A. Dunmur,: Molecular theory of helical sense inversions in chiral nematic liquid crystals.
Physical Review E 62(2), 2340 (2000).
5. A. V. Emelyanenko,: Analytical description for the chiral nematic state in terms of molecular parameters.
Physical Review E 67(3), 031704 (2003).
6. A. V. Emelyanenko and M. A. Osipov,: Theoretical model for the discrete flexoelectric effect and a description for the sequence of intermediate smectic phases with increasing periodicity.
Physical Review E 68(5), 051703 (2003).
7. A. V. Emelyanenko and M. A. Osipov,: Origin of spontaneous polarization, tilt, and chiral structure of smectic liquid-crystal phases composed of bent-core molecules: A molecular model.
Physical Review E 70(2), 021704 (2004).
8. A. V. Emelyanenko and M. A. Osipov,: Theoretical Studies of the Structure of Intermediate Chiral Smectic Phases with Increasing Periodicity.
Ferroelectrics 309, 13 (2004).
9. N. M. Shtykov, A. D. L. Chandani, A. V. Emelyanenko, Atsuo Fukuda, and J. K. Vij,: Two kinds of smectic-C_alpha^* subphases in a liquid crystal and their relative stability dependent on the enantiomeric excess as elucidated by electric-field-induced birefringence experiment.
Physical Review E 71(2), 021711 (2005).
10. A. D. L. Chandani, N. M. Shtykov, V. P. Panov, A. V. Emelyanenko, Atsuo Fukuda, and J. K. Vij,: Discrete flexoelectric polarizations and biaxial subphases with periodicities other than three and four layers in chiral smectic liquid crystals frustrated between ferroelectricity and antiferroelectricity.
Physical Review E 72(4), 041705 (2005).
11. A. V. Emelyanenko, Atsuo Fukuda, and J. K. Vij,: Theory of the intermediate tilted smectic phases and their helical rotation.
Physical Review E 74(1), 011705 (2006).
12. J. -K. Song, A. D. L. Chandani, A. Fukuda, J. K. Vij, I. Kobayashi, and A. V. Emelyanenko,: Temperature-induced sign reversal of biaxiality observed by conoscopy in some ferroelectric Sm-C* liquid crystals.
Physical Review E 76(1), 011709 (2007).
13. A. V. Emelyanenko, E. P. Pozhidaev, N. M. Shtykov, and V. E. Molkin,: Antiferroelectric and ferrielectric liquid crystal display: electrically controlled birefringence color switch as a new mode.
Journal of the Society for Information Display 16(8), 811 (2008).
14. A. V. Emelyanenko,: Complex smectic phases: threshold phenomena and application prospects.
Doklady Physics 53, 559 (2008).
15. A. V. Emelyanenko,: Unified theory for the phase transitions in liquid crystals.
Doklady Physics 53, 571 (2008).
16. A. V. Emelyanenko,: Method of calculation of the elasticity constants for tilted smectic.
South Ural State University Bulletin, "Mathematics, Physics and Chemistry" 11(22), 38 (2008).
17. A. V. Emelyanenko,: Theory of nematic-smectic phase transition.
South Ural State University Bulletin, "Mathematics, Physics and Chemistry" 11(22), 43 (2008).
18. A. V. Emelyanenko,: Investigation of frustration between ferroelectricity and antiferroelectricity in smectics.
Moscow University Physics Bulletin 6, 29 (2008).
19. A. V. Emelyanenko,: Influence of the electric field on frustration between ferroelectricity and antiferroelectricity in smectics.
Moscow University Physics Bulletin 1, 64 (2009).
20. A. V. Emelyanenko,: Molecular-ststistical approach to a behaviour of ferroelectric, antiferroelectric and ferrielectric smectic phases in the electric field.
Eur. Phys. J. E 28, 441 (2009).
21. K.L. Sandhya, Atsuo Fukuda, J.K. Vij, and A.V. Emelyanenko,: Degeneracy lifting near the frustration points due to long-range interlayer interaction forces and the resulting varieties of polar chiral tilted smectic phases.
Liquid Crystals 36, 1101 (2009).
22. A.V. Emelyanenko,: Theory for the evolution of ferroelectric, antiferroelectric, and ferrielectric smectic phases in the electric field.
Physical Review E 82, 031710 (2010).
23. S. Aya, Yu. Sasaki, F. Araoka, K. Ema, K. Ishikawa, A.V. Emelyanenko, and H. Takezoe,: Observation of two isotropic-nematic phase transitions near a surface.
Physical Review Letters 106, 117801 (2011).
24. A.V. Emelyanenko, S. Aya, Yu. Sasaki, F. Araoka, K. Ema, K. Ishikawa, and H. Takezoe,: Two transitions between isotropic and nematic phases in confined liquid crystals.
Physical Review E 84, 041701 (2011).
25. Chih-Chieh Chien, Jui-Hsiang Liu, and A.V. Emelyanenko,: Fabrication and characterization of imprinted photonic crystalline polymer matrices via multiple UV polymerizations.
J. Mater. Chem. 22, 22446 (2012).
26. K.L. Sandhya, A.D.L. Chandani, A. Fukuda, J.K. Vij, A.V. Emelyanenko, and K. Ishikawa,: Degeneracy lifting due to thermal fluctuations around the frustration point between anticlinic antiferroelectric SmCA* and synclinic ferroelectric SmC*.
Physical Review E 87, 012502 (2013).
27. A.V. Emelyanenko and K. Ishikawa,: Smooth transitions between biaxial intermediate smectic phases.
Soft Matter 9, 3497 (2013).
28. N.V. Kalinin, A.V. Emelyanenko, L.A. Nosikova, Z.A. Kudryashova, and J.-H. Liu,: Recombination of dimers as a mechanism for the formation of several nematic phases.
Physical Review E 87, 062502 (2013).
29. V.Yu. Rudyak, A.V. Emelyanenko, and V.A. Loiko,: Structure transitions in oblate nematic droplets.
Physical Review E 88, 052501 (2013).
30. A.V. Emelyanenko and A.R. Khokhlov,: Simple theory of transitions between smectic, nematic, and isotropic phases.
J. Chem. Phys. 142, 204905 (2015).
31. V.Yu. Rudyak and A.V. Emelyanenko,: Orientational ordering of Janus colloids in cholesteric liquid crystals.
Soft Matter 11, 7237 (2015).