References
- Takezoe H, Haba O. Azodendrimers as a functional material. In: Simonescu CM, editor. Dendrimers, London: InTech; 2018.
- Ichimura K, Suzuki Y, Seki T, et al. Reversible change in alignment mode of nematic liquid crystals regulated photochemically by command surfaces modified with an azobenzene monolayer. Langmuir. 1988;4:1214–1216.
- Gibbons WM, Shannon PJ, Sun S-T, et al. Surface-mediated alignment of nematic liquid crystals with polarized laser light. Nature. 1991;351:49–50.
- Ogura K, Hirabayashi H, Uejima A, et al. Smectic liquid crystal imaging devices based on a photochemical reaction. Jpn J Appl Phys. 1982;21:969–973.
- Li W, Dohi T, Hara M, et al. Phototriggered mass migration consorted with surface dewetting in thin films of a liquid crystalline azobenzene-containing dendrimer. Macromolecules. 2012;45:6618–6627.
- Newkome GR, Moorefield C, Vögtle F. Dendritic molecules: concepts, syntheses, perspectives. Weinheim: VCH; 1996.
- Srivastava AK, Kim DY, Kim J, et al. Dielectric relaxation in a novel tapered chiral photochromatic liquid crystalline dendrimer. Liq Cryst. 2016;43:920–927.
- Haba O, Hiratsuka D, Shiraiwa T, et al. Homeotropic orientation of nematic liquid crystals induced by dissolving polyprophyleneimine dendrimer having peripheral mesogens. Opt Mater Exp. 2014;4:934–943.
- Nádasi H, Stannarius R, Eremin A, et al. Photomanipulation of the anchoring strength using a spontaneously adsorbed layer of azodendrimers. Phys Chem Chem Phys. 2017;19:7597–7606.
- Lee G, Araoka F, Ishikawa K, et al. Photo-induced ordering transition in microdroplets of liquid crystals with azodendrimer. Part Part Syst Charact. 2013;30:847–852.
- Haba O, Itabashi H, Sato S, et al. UV-induced stable planar alignment of nematic LCs using a polypropyleneimine dendrimer having a mesogen consisting of cinnamate and azobenzene moieties. Mol Cryst Liq Cryst. 2015;610:201–209.
- Eremin A, Hirankittiwong P, Chattham N, et al. Optically driven translational and rotational motions of microrod particles in a nematic liquid crystal. Proc Nat Acad Sci. 2015;112:1716–1720.
- Ryu M, Takezoe H, Haba O, et al. Photo-controllable thermal diffusivity and thermal conductivity driven by the orientation change of nematic liquid crystal with azodendrimers.Appl Phys Lett. 2015;107:221901-1-4.
- Ikeda T, Aya S, Araoka F, et al. Novel bistable device using anchoring transition and command surface. Appl Phys Exp. 2013;6: 061701-1-3.
- Eremin A, Nádasi H, Kurochkina M, et al. Langmuir. 2018. submitted.
- Takezoe H, Eremin A. Bend-shaped liquid crystals – structures and physical properties. Boca Raton: CRC Press; 2017.
- Noh J, Jampani VSR, Haba O, et al. Sub-second dynamic phototuning of alignment in azodendrimer-doped nematic liquid crystal shells. J Mol Liq. 2018. published online DOI:10.1016/j.molliq.2018.02.004)
- Hirankittiwong P, Chattham N, Limtrakul J, et al. Optical manipulation of the nematic director field around microspheres covered with an azodendrimer monolayer. Opt Exp. 2014;22:20087–20093.
- Schad H, Osman MA. Elastic constants and molecular association of cyano-substituted nematic liquid crystals. J Chem Phys. 1981;75:880–885.
- Kundu B, Pratibha R, Madhusudana NV. Anomalous temperature dependence of elastic constants in the nematic phase of binary mixtures made of rodlike and bent-core molecules. Phys Rev Lett. 2007;99: 247802-1-4.
- Sathyanarayana P, Mathew M, Li Q, et al. Splay bend elasticity of a bent-core nematic liquid crystal. Phys Rev E. 2010;81:010702(R)-1–4.
- Drzaic PS. Liquid crystal dispersions. Singapore: World Scientific; 1995.
- Lavrentovich OD. Phase transition altering the symmetry of topological point defects (hedgehogs) in a nematic liquid crystal. Zh Eksp Teor Fiz. 1986;91:2084–2096.
- Volovik GE, Lavrentovich OD. Topological dynamics of defects: boojums in nematic drops. Zh Eksp Teor Fiz. 1983;85:1997–2010.
- Jiang J, Yang D-K. Bipolar to toroidal configuration transition in liquid crystal droplets. Liq Cryst. 2018;45:102–111.
- Wang W, Zhou Y, Kim Y-K, et al. Patterned surface anchoring of nematic droplets at miscible liquid-liquid interfaces. Soft Matter. 2017;13:5714–5723.
- Fang GJ, Koral N, Zhu C, et al. Effect of concentration on the photo-orientation and relaxation dynamics of self-assembled monolayers of mixtures of an azobenzene-based triethoxysilane withoctyltriethoxysilane. Langmuir. 2011;27:3336–3342.
- Fang GJ, Maclennan JE, Yi Y, et al. Athermal photofluidization of glasses. Nature Commun. 2013;4:1521.
- Shvetsov SA, Emelyanenko AV, Boiko NI, et al. Optical orientation of nematic liquid crystal droplets via photoisomerization of an azodendrimer dopant. Beilstein J Nanotechnol. 2018;9:870–879.