http://orcid.org/0000-0001-7734-3181
References
- Lagerwall JPF, Giesselmann F. Current topics in smectic liquid crystal research. Chem Phys Chem. 2006;7:20–45.
- Lagerwall JPF, Scalia G. A new era for liquid crystal research: applications of liquid crystals in soft matter nano-, bio- and microtechnology. Curr Appl Phys. 2012;12:1387–1412.
- Bubnov A, Iwan A, Cigl M, et al. Photosensitive self-assembling materials as functional dopants for organic photovoltaic cells. RSC Adv. 2016;6:11577–11590.
- Hamplová V, Bubnov A, Kašpar M, et al. New antiferroelectric liquid crystalline materials containing a keto group and two lactate groups. Liq Cryst. 2003;30:1463–1470.
- 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;43:1472–1485.
- Kurp K, Czerwiński M, Tykarska M, et al. Design of advanced multicomponent ferroelectric liquid crystalline mixtures with sub-micrometer helical pitch. Liq Cryst. 2017;44:748–756.
- Bubnov A, Domenici V, Hamplová V, et al. First liquid single crystal elastomer containing lactic acid derivative as chiral co-monomer: synthesis and properties. Polymer. 2011;52:4490–4497.
- Bubnov A, Kašpar M, Hamplová V, et al. New polar liquid crystalline monomers with two and three lactate groups for preparation of side chain polysiloxanes. Liq Cryst. 2006;33:559–566.
- Toth-Katona T, Cigl M, Fodor-Csorba K, et al. Functional photochromic liquid crystalline methylhydrosiloxane-based side-chain polymers. Macromol Chem Phys. 2014;215:742–752.
- Buzin AI, Makarova NN, Tal’drik AV, et al. Comb-shaped liquid crystalline stereoregular cyclolinear methylsiloxane copolymers: synthesis behaviour in bulk and behaviour in monolayers. Liq Cryst. 2012;39:133–147.
- Petrova IM, Shcherbina MA, Bakirov AV, et al. Comb-shaped liquid crystalline stereoregular cyclolinear methylsiloxane copolymer containing lactic acid derivative as chiral mesogenic side group. Mendeleev Commun. 2013;23:347–349.
- Tal’drik AV, Shcherbina MA, Bakirov AV, et al. Polymesomorphism in a smectic SmC* phase in a comb-shaped liquid crystalline stereoregular cyclolinear methylsiloxane copolymer with the 4,4ʹ-bisphenylene fragment at terminal lactic acid derivative in mesogenic group. Mendeleev Commun. 2014;24:58–60.
- Naciri J, Carboni C, George AK. Low transition temperature organosiloxane liquid crystals displaying a de Vries smectic A phase. Liq Cryst. 2003;30:219–225.
- Brombach F, Neudorfl JM, Blunk D. The chiral pool as valuable natural source: new chiral mesogens made from lactic acid. Mol Cryst Liq Cryst. 2011;542:62–74.
- Bubnov A, Novotná V, Hamplová V, et al. Effect of multilactate chiral part of the liquid crystalline molecule on mesomorphic behaviour. J Mol Struct. 2008;892:151–157.
- Garić M, Bubnov A, Kašpar M, et al. New ferroelectric liquid crystalline materials containing one and two lactate groups attached to the molecule core. Liq Cryst. 2005;32:565–572.
- Kašpar M, Bilková P, Bubnov A, et al. New chlorine substituted liquid crystals possessing frustrated TGBA and SmQ phases. Liq Cryst. 2008;35:641–651.
- Stojanović M, Bubnov A, Obadović DŽ, et al. Effect of a bulky lateral substitution by chlorine atom and methoxy group on self-assembling properties of lactic acid derivatives. Mater Chem Phys. 2014;146:18–25.
- Novotná V, Hamplová V, Bubnov A, et al. First photoresponsive liquid crystalline materials with small layer shrinkage at the transition to the ferroelectric phase. J Mater Chem. 2009;19:3992–3997.
- Bunning TJ, Klei HE, Samulski ET, et al. Bilayer structures in cholesteric, cyclic-siloxane liquid crystals. Liq Cryst. 1991;10:445–456.
- Pachter R, Bunning TJ, Crane RL, et al. Static and dynamic molecular mechanics modelling and X‐ray scattering calculations for a cyclic siloxane macromolecule. Die Makromolekulare Chemie, Theory Simulation. 1993;2:337–348.
- Bunning TJ, Kreuzer F-H. Cyclosiloxane-based liquid crystalline materials. Trends in Polymer Science. 1995;3:318–323.
- Kreuzer F-H, Andrejewski D, Haas W, et al. Cyclic siloxanes with mesogenic side groups. Mol Cryst Liq Cryst. 1991;199:345–378.
- Makarova NN, Volkova LM, Matukhina EV, et al. Dimesogenic liquid crystalline organosiloxanes. Russian Chem Bull. 2003;52:1610–1620.
- Makarova NN, Volkova LM, Chizhova NV, et al. New stereoregular liquid-crystalline phenylcyclosiloxanes. Russian Chem Bull. 2003;52:2397–2405.
- Makarova NN, Petrova IM, Petrovsky PV, et al. Synthesis of new stereoregular 2,4,6,8-tetraphenylcyclotetrasiloxanes with mesogenic groups and the influence of spatial isomerism on the phase state of individual isomers and their mixtures. Russian Chem Bull. 2004;53:1983–1992.
- Facher A, Stebani U, Lattermann G, et al. 3,4-Dialkoxybenzoyl substituted derivatives of hexahydro-1,3,5-triazine with hexagonal columnar mesophases. Liq Cryst. 1998;25:441–448.
- Zhu X-M, Vinokur RA, Ponomarenko SA, et al. Synthesis of new carbosilane ferroelectric liquid-crystalline dendrimers. Polymer Sci Ser. 2000;42:1263–1271.
- Makarova NN, Petrova IM, Vlasova TV, et al. Synthesis of methylcyclotetra (hexa)siloxanes with different reactive groups at the same silicon atom. Russian Chem Bull. 2006;55:968–972.
- Makarova NN, Lavrukhin BD, Timofeeva TV, et al. Synthesis and properties of bifunctional decaorganylcyclohexasiloxanes. Russ Chem Bull. 1985;34:1017–1023. doi:10.1007/BF01142794.
- Tal’drik AV, Chizhova NV, Makarova NN. Influence of stereoregularity in comb-shaped cyclolinear methylsiloxane copolymers on LC state formation. Liquid Cryst Application (Russia). 2009;4(30):75–83.
- Podoliak N, Novotná V, Glogarová M, et al. Studies of de Vries behaviour of the smectic A - smectic C* phase transition. Phase Transition. 2010;83:1026–1036.
- Shibaev VP, Bobrovsky AY. Liquid crystalline polymers: development trends and photocontrollable materials. Russ Chem Rev. 2017;86:1024–1072.