https://orcid.org/0000-0003-3380-709X
References
- Tschierske C. Development of structural complexity by liquid crystal self-assembly. Angew Chem Int Ed. 2013;52:8828–8878.
- Kohout M, Bubnov A, Šturala J, et al. Effect of alkyl chain length in the terminal ester group on mesomorphic properties of new chiral lactic acid derivatives. Liq Cryst. 2016;43(10):1472–1475.
- Lehmann M, Kestemont G, Aspe RG, et al. High charge-carrier mobility in π-deficient discotic mesogens: design and structure–property relationship. Chem Eur J. 2005;11(11):3349–3362.
- O’Neill M, Kelly SM. Liquid crystals for charge transport, luminescence, and photonics. Adv Mater. 2003;15(14):1135–1146.
- Girotto CE, Bechtold IH, Gallardo H. New liquid crystals derived from thiophene connected to the 1,2,4-oxadiazole heterocycle. Liq Cryst. 2016;12(12):1768–1777.
- Ghosh T, Lehmann M. Recent advances in heterocycle-based metal-free calamitics. J Mater Chem C. 2017;5:12308–12337.
- Ong LK, Ha ST, Yeap GY, et al. Heterocyclic pyridine-based liquid crystals: synthesis and mesomorphic properties. Liq Cryst. 2018;45(11):1574–1584.
- Vasconcelos UB, Dalmolin E, Merlo AA. Synthesis and thermal behavior of new N-heterotolan liquid crystals. Org Lett. 2005;7(6):1027–1030.
- Vasconcelos UB, Merlo AA. Synthesis and mesomorphic behavior of new N-heterotolane liquid crystals containing a naphthyl-pyridyl framework. Synthesis. 2006;7:1141–1147.
- Duda L, Czajkowski M, Potaniec B, et al. Helical twisting power and compatibility in twisted nematic phase of new chiral liquid crystalline dopants with various liquid crystalline matrices. Liq Cryst. 2019;46(12):1769–1779.
- Campbell NL, Duffy WL, Thomas GI, et al. Nematic 2,5-disubstituted thiophenes. J Mater Chem. 2002;12(9):2706–2721.
- Burrow MP, Gray GW, Lacey D, et al. The synthesis and liquid crystal properties of some 2,5-disubstituted pyridines. Liq Cryst. 1988;3(12):1643–1653.
- Chia WL, Tsai CY. Synthesis and mesomorphic properties of a series of phenyl 6-(4-alkoxyphenyl) nicotinates. Heterocycles. 2011;83(5):1057–1065.
- Chia WL, Lin CW. Synthesis and thermotropic studies of a novel series of nematogenic liquid crystals 2-(6-alkoxynaphthalen-2-yl)-5-cyanopyridines. Liq Cryst. 2013;40(7):922–931.
- Tang X, Bai L, Kong S, et al. Multi-arm ionic liquid crystals formed by cholesteric mesophase and pyridinium groups. Liq Cryst. 2019;46(8):1252–1265.
- Wang X, Bai L, Kong S, et al. Star-shaped supramolecular ionic liquid crystals based on pyridinium salts. Liq Cryst. 2019;46(4):512–522.
- Ahmed HA, Hagar M, Alaasar M, et al. Wide nematic phases induced by hydrogen-bonding. Liq Cryst. 2019;46(4):550–559.
- Petrov VF. Nitrogen-containing fused heterocycles as the structural fragments in calamitic liquid crystals. Liq Cryst. 2001;28(2):217–240.
- Nash JA, Gray GW. Studies of some heterocyclic mesogens. Mol Cryst Liq Cryst. 1974;25(3–4):299–321.
- Rogojerov M, Jordanov B, Antonov L, et al. Determination of the average orientation of 4-phenylpyridine in nematic solvent by means of infrared linear dichroism: study of its conformational dependence on the dihedral angle between aromatic rings. J Mol Struct. 2008;875(1–3):540–548.
- Yu H, Szilvási T, Rai P, et al. Computational chemistry-guided design of selective chemoresponsive liquid crystals using pyridine and pyrimidine functional groups. Adv Funct Mater. 2018;28(13):1703581–1703591.
- Chia WL, Huang HS. Effect of pyridine on the mesophase of teraryl liquid crystals: a new series of nematic liquid crystals named 2-(4-Alkoxybiphen-4ʹ-yl)-5-methylpyridines. Int J Mol Sci. 2016;17(3):344–358.
- Byron DJ, Lacey D, Wilson RC. Properties of the liquid crystals formed by certain 4-(2′-Pyridyl)phenyl and 4-(4′-Pyridyl)phenyl 4″ -n -Alkoxybenzoates. Mol Cryst Liq Cryst. 1980;62(1–2):103–114.
- Hagar M, Ahmed HA, Saad GR. New calamitic thermotropic liquid crystals of 2-hydroxypyridine ester mesogenic core: mesophase behaviour and DFT calculations. Liq Cryst. 2020;47(1):114–124.
- Kamogawa H, Kawashima K, Shimizu M, et al. Synthesis of mesomorphic aryl esters bearing a pyridine ring. Liq Cryst. 1991;10(1):101–110.
- Nobuhiro O, Noriko Y, Ichiro K, et al. Preparation of optically active 4-alkoxycarbonylphenyl 5-phenyl-3-pyridinecarboxylate derivatives as liquid crystals and antiferroelectric liquid crystals having tristable state. Jpn Kokai Tokkyo Koho. 1993. JP 05201983 A 19930810.
- Yuzo S, Norio K, Masami Y, et al. Optically active pyridine carboxylate derivatives as liquid crystals. Jpn Kokai Tokkyo Koho. 1989. JP 01019068 A 19890123.
- Yoshitake S, Shuhe Y. Optically active 3-phenylpyridine-2-carboxylate esters as ferroelectric smectic liquid crystals. Jpn Kokai Tokkyo Koho. 1988. JP 63101365 A 19880506.
- Canli NY, Yildiz A, Karanlik G, et al. Conductivity mechanism of Ethyl-4-(7,7,8,8,9,9,10,10,10-nonafluorodecyloxy)Biphenyl-4ʹ-Carboxylate. J Nanoelectron Optoelectron. 2016;11(1):36–40.
- Yildiz A, Canli N, Karanlik G, et al. The determination of the phase transition temperatures of a semifluorinated liquid crystalline biphenyl ester by impedance spectroscopy as an alternative method. Physica B. 2016;503:152–156.
- Karanlik G, Ocak H, Bilgin-Eran B. New pyridine based liquid crystalline esters with different terminal chains. J Mol Struct. 2019;1198:126930–126938.
- Vardar D, Akdaş-Kiliç H, Ocak H, et al. Pyridine based chiral smectogens: effects of polar end groups on liquid crystal properties. Liq Cryst. 2020;1–10. DOI:10.1080/02678292.2020.1799445
- Huo E, Yang D, Zhang Z, et al. Synthesis and characterization of 4-dodecyloxyphenyl and (4ʹ-dodecyloxy-4-biphenyl)methylene-substituted bispyrrolylvinylthiophene-based polysquaraines having good solubility and very low bandgap for light absorption. J Appl Polym Sci. 2012;128:1632–1639.
- Heppke G, Lotzsch D, Morrb M, et al. New chiral side chains for ferro- and antiferro-electric liquid crystals derived from the preen-gland wax of the domestic goose. J Mater Chem. 1997;7(10):1993–1999.
- Goodby JW. Twisted and frustrated states of matter. Proc R Soc. A. 2012;468(2142):1521–1542. DOI:10.1098/rspa.2011.0685