https://orcid.org/0000-0002-7451-5563
References
- Blinov LM. Structure and properties of liquid crystals. Dordrecht: Springer; 2011.
- Haase W, Wróbel S, editors. Relaxation phenomena: liquid crystals, magnetic systems, polymers, high-Tc superconductors, metallic glasses. Berlin: Springer; 2003.
- Perkowski P, Ogrodnik K, Żurowska M, et al. Antiferroelectric SmCA* and ferroelectric SmC* phases in racemic mixture. Phase Trans. 2013;86(2–3):138–146.
- Carlsson T, Žekŝ B, Filipiĉ C, et al. Theoretical model of the frequency and temperature dependence of the complex dielectric constant of ferroelectric liquid crystals near the smectic-C*–smectic-A phase transition. Phys Rev A. 1990;42(2):877–889.
- Blinc R, Zěkš B. Dynamics of ferroelectric smectic-C liquid crystals. Phys Rev A. 1978;18(2):740–745.
- Ciastek S, Szymańska K, Kaszyński P, et al. Smectic behaviour of methyl 4-alkoxybenzoates with a partially fluorinated alkyl chain. Liq Cryst. 2018;45(1):11–21.
- Pytlarczyk M, Herman J, Harmata P, et al. The influence of the dialkylphenyltolane’s difluorosubstitution on mesomorphic and dielectric properties. Liq Cryst. 2018;45(10):1460–1469.
- Żurowska M, Dąbrowski R, Dziaduszek J, et al. Influence of alkoxy chain length and fluorosubstitution on mesogenic and spectral properties of high tilted antiferroelectric esters. J Mater Chem. 2011;21:2144–2153.
- Morawiak P, Piecek W, Żurowska M, et al. Effect of fluorination of molecular rigid core in liquid crystal biphenyl benzoate based homologous series. Opto-Electron Rev. 2009;17(1):40–44.
- Perkowski P, Raszewski Z, Piecek W, et al. Dielectric properties of new fluorinated orthoconic antiferroelectric liquid crystals. Mol Cryst Liq Cryst. 2009;509:328[1070]-335[1077].
- Dey K, Mandal PK, Dąbrowski R. Effect of bias on dielectric properties of SmCA* and SmC* phases of a perfluorinated antiferroelectric liquid crystal. Mater Today Proc. 2016;3:3987–3991.
- Perkowski P, Piecek W, Raszewski Z, et al. New high frequency dielectric mode in fluorinated antiferroelectric liquid crystals. Ferroelectrics. 2008;365:88–94.
- Żurowska M, Dąbrowski R, Dziaduszek J, et al. Synthesis and mesomorphic properties of chiral esters comprising partially fluorinated alkoxyalkoxy terminal chains and a 1-methylheptyl chiral moiety. Mol Cryst Liq Cryst. 2008;495:145[497]-157[509].
- Żurowska M, Dąbrowski R, Dziaduszek J, et al. Synthesis and properties of high tilted antiferroelectric esters with partially fluorinated alkoxyalkoxy terminal chains. Opto-Electron Rev. 2008;16(3):251–256.
- Perkowski P, Ogrodnik K, Piecek W. High frequency mode in new antiferroelectric mixture. Mol Cryst Liq Cryst. 2010;525:50–56.
- Perkowski P, Piecek W, Raszewski Z, et al. Precise dielectric spectroscopy of a long pitch orthoconic antiferroelectric working mixture. Mol Cryst Liq Cryst. 2011;541:191/[429]-200/[438].
- Ogrodnik K, Perkowski P, Raszewski Z, et al. Dielectric measurements of orthoconic antiferroelectric liquid crystal mixtures. Mol Cryst Liq Cryst. 2011;547:54/[1744]-64/[1754].
- Perkowski P, Ogrodnik K, Piecek W, et al. Influence of the bias field on dielectric properties of the SmCA* in the vicinity of the SmC*−SmCA* phase transition. Liq Cryst. 2011;38(9):1159–1167.
- Drzewicz A, Bombalska A, Tykarska M. Impact of molecular structure of smectogenic chiral esters (3FmX1X2r) on vibrational dynamics as seen by IR and Raman spectroscopy. Liq Cryst. 2018.
- Deptuch A, Jaworska-Gołąb T, Marzec M, et al. Mesomorphic phase transitions of 3F7HPhF studied by complementary methods. Phase Trans. 2018;91(2):186–198.
- Miyasato K, Abe S, Takezoe H, et al. Direct method with triangular wave for measuring spontaneous polarization in ferroelectric liquid crystals. Jpn J Appl Phys. 1983;22(10):L661–L663.
- Raina KK, Ahuja JK. Helix dynamics and electro-optic switching in ferroelectric smectic C liquid crystals. Mol Cryst Liq Cryst. 2000;338:125–140.
- Khosla S, Raina KK. Switching responses of ferroelectric liquid crystals. Indian J Pure Appl Phys. 2004;42:49–55.
- Clark NA, Lagerwall ST. Submicrosecond bistable electro-optic switching in liquid crystals. Appl Phys Lett. 1980;36(11):899–901.
- Roisnel T, Rodriguez-Carvajal J. WinPLOTR: a windows tool for powder diffraction patterns analysis. In: Delhez R, Mittenmeijer EJ, editors. Proceedings of the 7th European powder diffraction conference. Vols. 378–381. Materials Science Forum; 2001. p. 118–123. Switzerland: Trans Tech Publications. DOI:10.4028/www.scientific.net/MSF.378-381.118
- Frisch MJ, Trucks GW, Schlegel HB, et al. Gaussian 09. Revision D.01. Wallingford (CT): Gaussian Inc; 2013.
- Becke AD. Density-functional exchange-energy approximation with correct asymptotic behaviour. Phys Rev A. 1988;38(6):3098–3100.
- Lee C, Yang W, Parr RG. Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density. Phys Rev B. 1988;37(2):785–789.
- Grimme S, Ehrlich S, Goerigk L. Effect of the damping function in dispersion corrected density functional theory. J Comput Chem. 2011;32(7):1456–1465.
- Schäfer A, Horn H, Ahlrichs R. Fully optimized contracted Gaussian basis sets for atoms Li to Kr. J Chem Phys. 1992;97:2571–2577.
- Eichkorn K, Weigend F, Treutler O, et al. Auxiliary basis sets for main row atoms and transition metals and their use to approximate Coulomb potentials. Theor Chem Acc. 1997;97:119–124.
- Weigend F, Ahlrichs R. Balanced basis sets of split valence, triple zeta valence and quadruple zeta valence quality for H to Rn: design and assessment of accuracy. Phys Chem Chem Phys. 2005;7:3297–3305.
- Havriliak S, Negami S. A complex plane analysis of a-dispersions in some polymer systems. J Polym Sci Polym Symp. 1966;14:99–117.
- Cole KS, Cole RH. Dispersion and absorption in dielectrics I. Alternating current characteristics. J Chem Phys. 1941;9:341–351.
- Moura Ramos JJ, Diogo HP. The glassy dynamics in liquid crystalline 4-n- pentyl-4ʹ-cyanobiphenyl as studied by thermally stimulated currents. Mol Cryst Liq Cryst. 2013;571:19–29.
- Kripotou S, Georgopoulos D, Kyritsis A, et al. Phase transitions and molecular mobility in 5CB and CE8 studied by dielectric techniques. Mol Cryst Liq Cryst. 2015;623:407–423.
- Georgopoulos D, Kripotou S, Argyraki E, et al. Study of isothermal crystallization kinetics of 5CB with differential scanning calorimetry and broadband dielectric spectroscopy. Mol Cryst Liq Cryst. 2015;611:197–207.
- Rozwadzowski T, Massalska-Arodź M, Kolek Ł, et al. Kinetics of cold crystallization of 4-cyano-3-fluorophenyl 4-butylbenzoate (4CFPB) glass forming liquid crystal. I. Nonisothermal process as studied by microscopic, calorimetric, and dielectric methods. Cryst Growth Des. 2015;15:2891–2900.
- Gleeson HF, Wang Y, Watson S, et al. On the temperature dependence of the tilt and spontaneous polarisation in high tilt antiferroelectric liquid crystals. J Mater Chem. 2004;14:1480–1485.
- Piecek W, Raszewski Z, Perkowski P, et al. The origin of high optical tilt in a homologous series of fluorinated antiferroelectric liquid crystals. Mol Cryst Liq Cryst. 2005;436:149–165.
- Fitas J, Dłubacz A, Fryń P, et al. New ferroelectric and antiferroelectric liquid crystals studied by complementary methods. Liq Cryst. 2017;44(3):566–576.
- Różycka A, Deptuch A, Jaworska-Gołąb T, et al. Evidence of monotropic hexatic tilted smectic phase in the phase sequence of ferroelectric liquid crystal. Phase Trans. 2018;91(2):159–169.
- Levstik A, Kutnjak Z, Filipič C, et al. Dielectric method for determining the rotational viscosity in thick samples of ferroelectric chiral smectic-C* liquid crystals. Phys Rev A. 1990;42(4):2204–2210.
- Hemine J, Daoudi A, Legrand C, et al. Dielectric spectroscopy of the Goldstone-mode relaxation in the surface-stabilized chiral smectic C phase in ferroelectric liquid crystal. Ferroelectrics. 2008;371:104–109.