박사

무배향막 네마틱 액정 배향을 위한 인시츄 광배향 및 이의 전기광학 소자 응용

논문상세정보
' 무배향막 네마틱 액정 배향을 위한 인시츄 광배향 및 이의 전기광학 소자 응용' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • azo-dye chromophores
  • cinamate
  • in situ photoalignment
  • liquid crystal displays
  • nematic liquid crystal
  • photodimerization
  • photoisomerization
  • photopolymerization
  • polarized light
  • reactive mesogen
  • stabilization
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
171 0

0.0%

' 무배향막 네마틱 액정 배향을 위한 인시츄 광배향 및 이의 전기광학 소자 응용' 의 참고문헌

  • Zhao, Y.; Ikeda, T., Smart light--responsive materials: azobenzene--containing polymers and liquid crystals. John Wiley & Sons: 2009.
  • Zhao, D.; Zhou, W.; Cui, X.; Tian, Y.; Guo, L.; Yang, H., Alignment of liquid crystals doped with nickel nanoparticles containing different morphologies. Advanced Materials 2011, 23 (48), 5779--5784.
  • Zhao, D.; Zhou, W.; Cui, X.; Tian, Y.; Guo, L.; Yang, H., Alignment of liquid crystals doped with nickel nanoparticles containing different morphologies. Adv Mater 2011, 23 (48), 5779--84.
  • Zhao, D.; Huang, W.; Cao, H.; Zheng, Y.; Wang, G.; Yang, Z.; Yang, H., Homeotropic alignment of nematic liquid crystals by a photocross--linkable organic monomer containing dual photofunctional groups. The Journal of Physical Chemistry B 2009, 113 (10), 2961--2965.
  • Zhang, C.--H.; Yang, Z.--H.; Ding, M.--X., Liquid crystal alignment generated by linearly polarized UV light on photoactive low molecular mass compounds. Liquid crystals 2003, 30 (1), 65--69.
  • Yu, Y.; Ikeda, T., Alignment modulation of azobenzene--containing liquid crystal systems by photochemical reactions. Journal of Photochemistry and Photobiology C: Photochemistry Reviews 2004, 5 (3), 247--265.
  • Yoon, W.--J.; Lee, K. M.; Evans, D. R.; McConney, M. E.; Kim, D.--Y.; Jeong, K.--U., Giant Surfactants for the Construction of Automatic Liquid Crystal Alignment Layers. Journal of Materials Chemistry C 2019.
  • Yoon, W.--J.; Choi, Y.--J.; Kim, D.--Y.; Kim, J. S.; Yu, Y.--T.; Lee, H.; Lee, J.--H.; Jeong, K.--U., Photopolymerization of reactive amphiphiles: automatic and robust vertical alignment layers of liquid crystals with a strong surface anchoring energy. Macromolecules 2015, 49 (1), 23--29.
  • Yoon, W.--J.; Choi, Y.--J.; Kang, D.--G.; Kim, D.--Y.; Park, M.; Lee, J.--H.; Kang, S.--W.; Lee, S. H.; Jeong, K.--U., Construction of polymer--stabilized automatic multidomain vertical molecular alignment layers with pretilt angles by photopolymerizing dendritic monomers under electric fields. ACS Omega 2017, 2 (9), 5942--5948.
  • Yi, Y.; Farrow, M. J.; Korblova, E.; Walba, D. M.; Furtak, T. E., High--sensitivity aminoazobenzene chemisorbed monolayers for photoalignment of liquid crystals. Langmuir 2008, 25 (2), 997--1003.
  • Yi, Y.; Farrow, M. J.; Korblova, E.; Walba, D. M.; Furtak, T. E., High--Sensitivity Aminoazobenzene Chemisorbed Monolayers for Photoalignment of Liquid Crystals. Langmuir 2009, 25 (2), 997--1003.
  • Yeh, P.; Gu, C., Optics of liquid crystal displays. John Wiley & Sons: 2010; Vol. 67.
  • Yaroshchuk, O.; Reznikov, Y., Photoalignment of liquid crystals: basics and current trends. Journal of Materials Chemistry 2012, 22 (2), 286 300.
  • Yaroshchuk, O.; Kyrychenko, V.; Tao, D.; Chigrinov, V.; Kwok, H.; Hasebe, H.; Takatsu, H., Stabilization of liquid crystal photoaligning layers by reactive mesogens. Applied Physics Letters 2009, 95 (2), 021902.
  • Yaroshchuk, O.; Kyrychenko, V.; Tao, D.; Chigrinov, V.; Kwok, H. S.; Hasebe, H.; Takatsu, H., Stabilization of liquid crystal photoaligning layers by reactive mesogens. Applied Physics Letters 2009, 95 (2), 021902.
  • Yaroshchuk, O.; Cada, L.; Sonpatki, M.; Chien, L.--C., Liquid--crystal photoalignment using low--molecular--weight photo--cross--linkable composites. Applied Physics Letters 2001, 79 (1), 30--32.
  • Yaroshchuk, O. V.; Tereshchenko, A.; Lindau, J.; Bohme, A. In Free and stimulated orientation of liquid crystals on azobenzene polymer films, Nonlinear Optics of Liquid and Photorefractive Crystals, International Society for Optics and Photonics: 1996; pp 71--78.
  • Yang, K., Fundamentals of liquid crystal devices. John Wiley & Sons: 2014.
  • Xue, C.; Xiang, J.; Nemati, H.; Bisoyi, H. K.; Gutierrez‐Cuevas, K.; Wang, L.; Gao, M.; Zhou, S.; Yang, D. k.; Lavrentovich, O. D.; Urbas, A.; Li, Q., Light‐driven reversible alignment switching of liquid crystals enabled by azo thiol grafted gold nanoparticles. ChemPhysChem 2015, 16 (9), 1852--1856.
  • Watanabe, H.; Miyagawa, N.; Takahara, S.; Yamaoka, T., Photo‐alignment material with azobenzene‐functionalized polymer linked in film. Polymers for Advanced Technologies 2002, 13 (7), 558--565.
  • Wang, Y.; Kanazawa, A.; Shiono, T.; Ikeda, T.; Matsuki, Y.; Takeuchi, Y., Homogeneous alignment of nematic liquid crystal induced by polyimide exposed to linearly polarized light. Applied Physics Letters 1998, 72 (5), 545--547.
  • Wang, J.; McGinty, C.; Reich, R.; Finnemeyer, V.; Clark, H.; Berry, S.; Bos, P., Process for a Reactive Monomer Alignment Layer for Liquid Crystals Formed on an Azodye Sublayer. Materials (Basel, Switzerland) 2018, 11 (7), 1195.
  • Voloshchenko, D.; Khyzhnyak, A.; Reznikov, Y.; Reshetnyak, V., Control of an easy--axis on nematic--polymer interface by light action to nematic bulk. Japanese journal of applied physics 1995, 34 (2R), 566.
  • Tseng, M.--C.; Yaroshchuk, O.; Bidna, T.; Srivastava, A. K.; Chigrinov, V.; Kwok, H.--S., Strengthening of liquid crystal photoalignment on azo dye films: passivation by reactive mesogens. RSC Advances 2016, 6 (53), 48181--48188.
  • Trajkovska, A.; Kim, C.; Marshall, K. L.; Mourey, T. H.; Chen, S. H., Photoalignment of a Nematic Liquid Crystal Fluid and Glassy− Nematic Oligofluorenes on Coumarin--Containing Polymer Films. Macromolecules 2006, 39 (20), 6983--6989.
  • Tong, X.; Wang, G.; Zhao, Y., Photochemical Phase Transition versus Photochemical Phase Separation. Journal of the American Chemical Society 2006, 128 (27), 8746--8747.
  • Tong, X.; Pelletier, M.; Lasia, A.; Zhao, Y., Fast Cis––Trans Isomerization of an Azobenzene Derivative in Liquids and Liquid Crystals under a Low Electric Field. Angewandte Chemie International Edition 2008, 47 (19), 3596--3599.
  • Tomita, H.; Kudo, K.; Ichimura, K., Command surfaces 15 [1]. Photoregulation of liquid crystal alignment by cinnamoyl residues on a silica surface. Liquid Crystals 1996, 20 (2), 171--176.
  • Takatoh, K.; Sakamoto, M.; Hasegawa, R.; Koden, M.; Itoh, N.; Hasegawa, M., Alignment technology and applications of liquid crystal devices. CRC Press: 2005.
  • Sun, S.--T.; Gibbons, W. M.; Shannon, P. J., Alignment of guest––host liquid crystals with polarized laser light. Liquid Crystals 1992, 12 (5), 869--874.
  • St hr, J.; Samant, M., Liquid crystal alignment by rubbed polymer surfaces: a microscopic bond orientation model. Journal of electron spectroscopy and related phenomena 1999, 98, 189 207.
  • Shibaev, V.; Kostromin, S.; Ivanov, S., Comb--shaped polymers with mesogenic side groups as electro--and photooptical active media. In Polymers as electrooptical and photooptical active media, Springer: 1996; pp 37--110.
  • Sheremet, N.; Kurioz, Y.; Senenko, A.; Trunov, M.; Reznikov, Y., Photoalignment in the isotropic phase of liquid crystal on chalcogenide glass film. Liquid Crystals 2015, 42 (1), 81--86.
  • Shenoy, D.; Gr eneberg, K.; Naciri, J.; Shashidhar, R., Photo--dimerized monolayer (PDML) versus rubbed polyimide (RPI): A comparison of electro--optic properties. Japanese journal of applied physics 1998, 37 (11A), L1326.
  • Sekkat, Z.; Wood, J.; Knoll, W., Reorientation Mechanism of Azobenzenes within the Trans .fwdarw. Cis Photoisomerization. The Journal of Physical Chemistry 1995, 99 (47), 17226--17234.
  • Schadt, M.; Seiberle, H.; Schuster, A.; Kelly, S. M., Photo--generation of linearly polymerized liquid crystal aligning layers comprising novel, integrated optically patterned retarders and color filters. Japanese journal of applied physics 1995, 34 (6R), 3240.
  • Schadt, M.; Seiberle, H.; Schuster, A.; Kelly, S. M., Photo--Induced Alignment and Patterning of Hybrid Liquid Crystalline Polymer Films on Single Substrates. Japanese Journal of Applied Physics 1995, 34, L764.
  • Schadt, M.; Seiberle, H.; Schuster, A.; Kelly, S. M., Photo--Generation of Linearly Polymerized Liquid Crystal Aligning Layers Comprising Novel, Integrated Optically Patterned Retarders and Color Filters. Japanese Journal of Applied Physics 1995, 34 (Part 1, No. 6A), 3240--3249.
  • Schadt, M.; Seiberle, H.; Schuster, A., Optical patterning of multi--domain liquid--crystal displays with wide viewing angles. Nature 1996, 381 (6579), 212.
  • Schadt, M.; Seiberle, H., Optical patterning of multidomain LCDs. Journal of the Society for Information Display 1997, 5 (4), 367--370.
  • Schadt, M.; Schmitt, K.; Kozinkov, V.; Chigrinov, V., Surface--induced parallel alignment of liquid crystals by linearly polymerized photopolymers. Japanese Journal of Applied Physics 1992, 31 (7R), 2155.
  • Schadt, M.; Helfrich, W., Voltage‐dependent optical activity of a twisted nematic liquid crystal. Applied Physics Letters 1971, 18 (4), 127--128.
  • Sato, T.; Ozaki, Y.; Iriyama, K., Molecular Aggregation and Photoisomerization of Langmuir--Blodgett Films of Azobenzene--Containing Long--Chain Fatty Acids and Their Salts Studied by Ultraviolet--Visible and Infrared Spectroscopies. Langmuir 1994, 10 (7), 2363--2369.
  • Sakamoto, K.; Usami, K.; Kikegawa, M.; Ushioda, S., Alignment of polyamic acid molecules containing azobenzene in the backbone structure: Effects of polarized ultraviolet light irradiation and subsequent thermal imidization. Journal of applied physics 2003, 93 (2), 1039--1043.
  • Ruslim, C.; Hashimoto, M.; Matsunaga, D.; Tamaki, T.; Ichimura, K., Optical and surface morphological properties of polarizing films fabricated from a chromonic dye by the photoalignment technique. Langmuir 2004, 20 (1), 95--100.
  • Reznikov, Y.; Yaroshchuk, O.; Gerus, I.; Homuth, A.; Pelzl, G.; Weissflog, W.; Kim, K.; Choi, Y.; Kwon, S., Relationship between molecular structure of photosensitive fragments and aligning properties of polysiloxanes. Molecular Crystals and Liquid Crystals Science and Technology Section C--Molecular Materials 1998, 9 (4), 333--342.
  • Qi, H.; Kinkead, B.; Hegmann, T., Unprecedented dual alignment mode and Freedericksz transition in planar nematic liquid crystal cells doped with gold nanoclusters. Advanced Functional Materials 2008, 18 (2), 212--221.
  • Perny, S.; Barny, P. L.; Delaire, J.; Buffeteau, T.; Sourisseau, C.; Dozov, I.; Forget, S.; Martinot--Lagarde, P., Photoinduced orientation in poly(vinylcinnamate) and poly(7--methacryloyloxycoumarin) thin films and the consequences on liquid crystal alignment. Liquid Crystals 2000, 27 (3), 329--340.
  • Perny, S.; Barny, P. L.; Delaire, J.; Buffeteau, T.; Sourisseau, C., Molecular orientation and liquid crystal alignment properties of new cinnamate--based photocrosslinkable polymers. Liquid Crystals 2000, 27 (3), 341--348.
  • Pa̧czkowski, J.; Toczek, M.; S̀cigalski, F.; Ćwiklińska, D.; Sierocka, M., Cinnamates. III. The light sensitive polymers: Cinnamates with internal charge--transfer spectroscopic properties. Journal of Polymer Science Part A: Polymer Chemistry 1989, 27 (8), 2647--2656.
  • Park, M.--K.; Advincula, R. C., In--Plane Photoalignment of Liquid Crystals by Azobenzene−Polyelectrolyte Layer--by--Layer Ultrathin Films. Langmuir 2002, 18 (11), 4532--4535.
  • Park, B.; Jung, Y.; Choi, H.--H.; Hwang, H.--K.; Kim, Y.; Lee, S.; Jang, S.--H.; Kakimoto, M.--a.; Takezoe, H., Thermal and optical stabilities of photoisomerizable polyimide layers for nematic liquid crystal alignments. Japanese journal of applied physics 1998, 37 (10R), 5663.
  • P. J. Collings, M. H., Introduction to Liquid Crystals: Chemistry and Physics. Taylor & Francis Ltd: 1997.
  • O’Neill, M.; Kelly, S. M., Ordered materials for organic electronics and photonics. Advanced Materials 2011, 23 (5), 566--584.
  • Oya, N.; Sukarsaatmadja, P.; Ishida, K.; Yoshie, N., Photoinduced mendable network polymer from poly(butylene adipate) end--functionalized with cinnamoyl groups. Polymer Journal 2012, 44, 724.
  • Ono, H.; Emoto, A.; Takahashi, F.; Kawatsuki, N.; Hasegawa, T., Highly stable polarization gratings in photocrosslinkable polymer liquid crystals. Journal of Applied Physics 2003, 94 (3), 1298--1303.
  • Obi, M.; Morino, S. y.; Ichimura, K., The reversion of photoalignment direction of a liquid crystal induced by a polymethacrylate with coumarin side chains. Macromolecular rapid communications 1998, 19 (12), 643--646.
  • Obi, M.; Morino, S. y.; Ichimura, K., Role of E/Z Photoisomerization of Cinnamate Side Chains Attached to Polymer Backbones in the Alignment Photoregulation of Nematic Liquid Crystals. Japanese Journal of Applied Physics 1996, 35, L992--L995.
  • Obi, M.; Morino, S. y.; Ichimura, K., Reversion of photoalignment direction of liquid crystals induced by cinnamate polymer films. Japanese journal of applied physics 1999, 38 (2A), L145.
  • Obi, M.; Morino, S. y.; Ichimura, K., Reversion of photoalignment direction of liquid crystals induced by cinnamate polymer films. Japanese journal of applied physics 1999, 38 (2A), L145--L147.
  • Obi, M.; Morino, S. y.; Ichimura, K., Factors affecting photoalignment of liquid crystals induced by polymethacrylates with coumarin side chains. Chemistry of materials 1999, 11 (3), 656--664.
  • O'Neill, M.; Kelly, S., Photoinduced surface alignment for liquid crystal displays. Journal of Physics D: Applied Physics 2000, 33 (10), R67.
  • Nobuhiro, K., Photoalignment and Photoinduced Molecular Reorientation of Photosensitive Materials. Chemistry Letters 2011, 40 (6), 548--554.
  • Nishikawa, M.; Taheri, B.; West, J. L., Mechanism of unidirectional liquid--crystal alignment on polyimides with linearly polarized ultraviolet light exposure. Applied physics letters 1998, 72 (19), 2403--2405.
  • Nishikawa, M.; Kosa, T.; West, J. L., Effect of chemical structures of polyimides on unidirectional liquid crystal alignment produced by a polarized ultraviolet--light exposure. Japanese journal of applied physics 1999, 38 (3B), L334.
  • Nasrollahi, A.; Kumar, V.; Lee, M.--H.; Kang, S.--W.; Park, H.--S.; Lim, H.; Oh, K. C.; Lyu, J. J., Polyimide--free Planar Alignment of Nematic Liquid Crystals: Sequential Interfacial Modifications through Dual--Wavelength In Situ Photoalignment. ACS applied materials & interfaces 2019.
  • Nasrollahi, A.; Kumar, V.; Lee, M.--H.; Kang, S.--W.; Park, H.--S.; Lim, H.; Oh, K. C.; Lyu, J. J., Polyimide--free Planar Alignment of Nematic Liquid Crystals: Sequential Interfacial Modifications through Dual--Wavelength In Situ Photoalignment. ACS applied materials & interfaces 2019, 11 (16), 15141--15151.
  • Mizusaki, M.; Tsuchiya, H.; Minoura, K., Fabrication of homogenously self--alignment fringe--field switching mode liquid crystal cell without using a conventional alignment layer. Liquid Crystals 2017, 44 (9), 1394--1401.
  • Mihara, T., Photo--alignment properties of photo--crosslinked films of liquid crystalline polymers containing chalcone derivatives. Molecular Crystals and Liquid Crystals 2005, 441 (1), 185--200.
  • Meng, C.--L.; Tseng, M.--C.; Lee, C.--Y.; Srivastava, A. K.; Chigrinov, V. G.; Kwok, H.--S., P‐118: Azo Dye, Liquid Crystals Polymer Composite Photo‐Alignment Layer for Modern Liquid Crystal Displays. SID 2016 DIGEST 2016, 47 (1), 1566--1569.
  • Matsunaga, D.; Tamaki, T.; Akiyama, H.; Ichimura, K., Photofabrication of Micro‐Patterned Polarizing Elements for Stereoscopic Displays. Advanced Materials 2002, 14 (20), 1477--1480.
  • Martinez, A.; Mireles, H. C.; Smalyukh, I. I., Large--area optoelastic manipulation of colloidal particles in liquid crystals using photoresponsive molecular surface monolayers. Proceedings of the National Academy of Sciences 2011, 108 (52), 20891--20896.
  • Malone, S. M.; Schwartz, D. K., Polar and azimuthal alignment of a nematic liquid crystal by alkylsilane self--assembled monolayers: Effects of chain--length and mechanical rubbing. Langmuir 2008, 24 (17), 9790--9794.
  • Makita, Y.; Natsui, T.; Kimura, S.--i.; Nakata, S.; Kimura, M.; Matsuki, Y.; Takeuchi, Y., Photo alignment materials with high sensitivity to near UV light. Journal of Photopolymer Science and Technology 1998, 11 (2), 187--192.
  • Lucht, S.; Neher, D.; Miteva, T.; Nelles, G.; Yasuda, A.; Hagen, R.; Kostromine, S., Photoaddressable polymers for liquid crystal alignment. Liquid crystals 2003, 30 (3), 337--344.
  • Lucchetti, L.; Simoni, F., Role of space charges on light--induced effects in nematic liquid crystals doped by methyl red. Physical Review E 2014, 89 (3), 032507.
  • Lim, H. S.; Lee, W. H.; Lee, S. G.; Lee, D.; Jeon, S.; Cho, K., Effect of nanostructure on the surface dipole moment of photoreversibly tunable superhydrophobic surfaces. Chemical Communications 2010, 46 (24), 4336--4338.
  • Li, X.--D.; Zhong, Z.--X.; Lee, S. H.; Ghang, G.; Lee, M.--H., Liquid crystal photoalignment using soluble photosensitive polyimide. Japanese journal of applied physics 2006, 45 (2R), 906.
  • Li, Q., Photoactive Functional Soft Materials: Preparation, Properties, and Applications. John Wiley & Sons: 2018.
  • Li, Q., Liquid crystals beyond displays: chemistry, physics, and applications. John Wiley & Sons: 2012.
  • Li, Q., Intelligent stimuli--responsive materials: from well--defined nanostructures to applications. John Wiley & Sons: 2013.
  • Lee, Y.--J.; Kim, Y.--K.; Jo, S. I.; Gwag, J. S.; Yu, C.--J.; Kim, J.--H., Surface--controlled patterned vertical alignment mode with reactive mesogen. Optics express 2009, 17 (12), 10298--10303.
  • Lee, W. J.; Lim, J. C.; Paek, S. H.; Song, K.; Chang, J. Y., New Photoreactive Materials Having Chalcone Units: Synthesis and Photoalignment of Nematic Liquid Crystals. Korea Polymer Journal 2001, 9 (6), 339--344.
  • Lee, T. Y.; Roper, T. M.; Jonsson, E. S.; Kudyakov, I.; Viswanathan, K.; Nason, C.; Guymon, C. A.; Hoyle, C. E., The kinetics of vinyl acrylate photopolymerization. Polymer 2003, 44 (10), 2859--2865.
  • Lee, J. M.; Kim, J. H.; Kim, H. J.; Lim, Y. J.; Kundu, S.; Kim, M. S.; Lee, M.--H.; Lee, J. H.; Lee, G.--D.; Lee, S. H., Achieving a robust homogenously aligned liquid crystal layer with reactive mesogen for in--plane switching liquid crystal displays. Liquid Crystals 2017, 44 (7), 1194--1200.
  • Lee, J. M.; Kim, J. H.; Kim, H. J.; Lim, Y. J.; Kundu, S.; Kim, M. S.; Lee, M.--H.; Lee, J. H.; Lee, G.--D.; Lee, S. H., Achieving a robust homogenously aligned liquid crystal layer with reactive mesogen for in--plane switching liquid crystal displays. Liquid Crystals 2016, 44 (7), 1194--1200.
  • Lee, G.--D.; Bos, P. J.; Ahn, S. H.; Kim, K. H., Fast Q--tensor method for modeling the dynamics of defects in a liquid crystal director field. Physical Review E 2003, 67 (4), 041715.
  • Lee, C.--R.; Fu, T.--L.; Cheng, K.--T.; Mo, T.--S.; Fuh, A.--G., Surface--assisted photoalignment in dye--doped liquid--crystal films. Physical Review E 2004, 69 (3), 031704.
  • Lagerwall, J. P. F.; Scalia, G., A new era for liquid crystal research: Applications of liquid crystals in soft matter nano--, bio-- and microtechnology. Current Applied Physics 2012, 12 (6), 1387--1412.
  • Kwok, H.--S.; Chigrinov, V. G.; Takada, H.; Takatsu, H., New developments in liquid crystal photo--aligning by azo--dyes. Journal of display technology 2005, 1 (1), 41.
  • Kundu, S.; Lee, M. H.; Lee, S. H.; Kang, S. W., In situ homeotropic alignment of nematic liquid crystals based on photoisomerization of azo--dye, physical adsorption of aggregates, and consequent topographical modification. Adv Mater 2013, 25 (24), 3365--70.
  • Kundu, S.; Lee, M. H.; Lee, S. H.; Kang, S. W., In Situ Homeotropic Alignment of Nematic Liquid Crystals Based on Photoisomerization of Azo‐Dye, Physical Adsorption of Aggregates, and Consequent Topographical Modification. Advanced Materials 2013, 25 (24), 3365--3370.
  • Kumar, V.; Nasrollahi, A.; Baliyan, V. K.; Park, H.--S.; Lee, M.--H.; Kang, S.--W., Dual wavelength in situ photoalignment for stable planar alignment of nematic liquid crystals. Optical Materials Express 2018, 8 (8), 2366.
  • Kozenkov, V.; Chigrinov, V. G.; Kwok, H. S., Photoanisotropic effects in poly (vinyl--cinnamate) derivatives and their applications. Molecular Crystals and Liquid Crystals 2004, 409 (1), 251--267.
  • Komitov, L.; Ruslim, C.; Matsuzawa, Y.; Ichimura, K., Photoinduced anchoring transitions in a nematic doped with azo dyes. Liquid Crystals 2000, 27 (8), 1011--1016.
  • Komitov, L.; Ichimura, K.; Strigazzi, A., Light--induced anchoring transition in a 4, 4'--disubstituted azobenzene nematic liquid crystal. Liquid Crystals 2000, 27 (1), 51--55.
  • Knobloch, H.; Orendi, H.; B chel, M.; Seki, T.; Ito, S.; Knoll, W., Command surface controlled liquid crystalline waveguide structures as optical information storage. Journal of Applied Physics 1994, 76 (12), 8212--8214.
  • Kimura, M.; Nakata, S.; Makita, Y.; Matsuki, Y.; Kumano, A.; Takeuchi, Y.; Yokoyama, H., Photo--rubbing: A general method to induce durable liquid--crystal pretilt angle on photo--alignment films. Japanese journal of applied physics 2002, 41 (12A), L1345.
  • Kim, S. G.; Kim, S. M.; Kim, Y. S.; Lee, H. K.; Lee, S. H.; Lee, G.--D.; Lyu, J.--J.; Kim, K. H., Stabilization of the liquid crystal director in the patterned vertical alignment mode through formation of pretilt angle by reactive mesogen. Applied physics letters 2007, 90 (26), 261910.
  • Kim, K.--H.; Song, J.--K., Technical evolution of liquid crystal displays. NPG Asia Materials 2009, 1 (1), 29.
  • Kim, J.--H.; Acharya, B. R.; Kumar, S.; Ha, K. R., A method for liquid crystal alignment using in situ ultraviolet exposure during imidization of polyimide. Applied physics letters 1998, 73 (23), 3372--3374.
  • Kim, D. Y.; Lee, S. A.; Kang, D. G.; Park, M.; Choi, Y. J.; Jeong, K. U., Photoresponsive carbohydrate--based giant surfactants: automatic vertical alignment of nematic liquid crystal for the remote--controllable optical device. ACS Appl Mater Interfaces 2015, 7 (11), 6195--204.
  • Kim, C.; Wallace, J. U.; Trajkovska, A.; Ou, J. J.; Chen, S. H., Quantitative assessment of coumarin--containing polymer film's capability for photoalignment of liquid crystals. Macromolecules 2007, 40 (25), 8924--8929.
  • Kim, C.; Trajkovska, A.; Wallace, J. U.; Chen, S. H., New insight into photoalignment of liquid crystals on coumarin--containing polymer films. Macromolecules 2006, 39 (11), 3817--3823.
  • Kikuchi, H.; Yokota, M.; Hisakado, Y.; Yang, H.; Kajiyama, T., Polymer--stabilized liquid crystal blue phases. Nature materials 2002, 1 (1), 64.
  • Kidowaki, M.; Fujiwara, T.; Morino, S. y.; Ichimura, K.; Stumpe, J., Thermal amplification of photoinduced optical anisotropy of p--cyanoazobenzene polymer films monitored by temperature scanning ellipsometry. Applied Physics Letters 2000, 76 (11), 1377--1379.
  • Kelly, S.; O'Neill, M., Liquid crystals for electro optic applications. In Handbook of advanced electronic and photonic materials and devices, Elsevier: 2001; pp 1 66.
  • Kawatsuki, N.; Takatsuka, H.; Yamamoto, T.; Sangen, O., Optical anisotropy of a photoreacted side--chain liquid--crystalline polymer induced by linearly polarized UV light. Journal of Polymer Science Part A: Polymer Chemistry 1998, 36 (10), 1521--1526.
  • Kawatsuki, N.; Suehiro, C.; Yamamoto, T., Photoinduced alignment of photo--cross--linkable side--chain liquid crystalline copolymers comprising cinnamoylethoxybiphenyl and cyanobiphenyl groups. Macromolecules 1998, 31 (18), 5984--5990.
  • Kawatsuki, N.; Sakashita, S.--i.; Takatani, K.; Yamamoto, T.; Sangen, O., Synthesis, characterization and photoreaction of side--chain liquid--crystalline polymers comprising cinnamoyl biphenyl mesogen. Macromolecular Chemistry and Physics 1996, 197 (6), 1919--1935.
  • Kawatsuki, N.; Ono, H.; Takatsuka, H.; Yamamoto, T.; Sangen, O., Liquid Crystal Alignment on Photoreactive Side--Chain Liquid--Crystalline Polymer Generated by Linearly Polarized UV Light. Macromolecules 1997, 30 (21), 6680--6682.
  • Kawatsuki, N.; Matsuyoshi, K.; Yamamoto, T., Alignment of Photo--Cross--Linkable Copolymer Liquid Crystals Induced by Linearly Polarized Ultraviolet Irradiation and Thermal Treatment: Effect of Copolymerization Ratio. Macromolecules 2000, 33 (5), 1698––1702.
  • Kawatsuki, N.; Goto, K.; Yamamoto, T., Photoinduced anisotropy and photoalignment of nematic liquid crystals by a novel polymer liquid crystal with a coumarin--containing side group. Liquid Crystals 2001, 28 (8), 1171--1176.
  • Kawatsuki, N.; Goto, K.; Kawakami, T.; Yamamoto, T., Reversion of Alignment Direction in the Thermally Enhanced Photoorientation of Photo--Cross--Linkable Polymer Liquid Crystal Films. Macromolecules 2002, 35 (3), 706--713.
  • Kawatsuki, N.; Furuso, N.; Uchida, E.; Yamamoto, T., Control of In--Plane and Out--Of--Plane Reorientation in Photo--Cross--Linkable Copolymer Liquid--Crystal Films by Irradiation with Linearly Polarized Ultraviolet Light and Annealing. Macromolecular Chemistry and Physics 2002, 203 (17), 2438--2445.
  • Kang, S.--W.; kundu, S., Liquid Crystals with Nano and Microparticles. In Liquid Crystals with Nano and Microparticles, Lagerwall, J. P. F.; Scalia, G., Eds. world scientific Singapore 2016; Vol. 2.
  • Kang, H.; Choi, Y.--S.; Kang, D.; Lee, J.--C., Photoalignment behaviour on polystyrene films containing chalcone moieties. Liquid Crystals 2015, 42 (2), 189--197.
  • Jiang, P.; Zhao, D.--D.; Yang, X.--L.; Zhu, X.--L.; Chang, J.; Zhu, H.--J., Blue--light--emitting multifunctional triphenylamine--centered starburst quinolines: synthesis, electrochemical and photophysical properties. Organic & Biomolecular Chemistry 2012, 10 (24), 4704--4711.
  • Jeng, S.--C.; Kuo, C.--W.; Wang, H.--L.; Liao, C.--C., Nanoparticles--induced vertical alignment in liquid crystal cell. Applied physics letters 2007, 91 (6), 061112.
  • Jackson, P. O.; O'Neill, M.; Duffy, W. L.; Hindmarsh, P.; Kelly, S. M.; Owen, G. J., An investigation of the role of cross--linking and photodegradation of side--chain coumarin polymers in the photoalignment of liquid crystals. Chemistry of materials 2001, 13 (2), 694--703.
  • Jackson, P. O.; Karapinar, R.; O'Neill, M.; Hindmarsh, P.; Owen, G. J.; Kelly, S. M. In Alignment of coumarin--containing polymers for liquid crystal displays, Liquid Crystal Materials, Devices, and Applications VII, International Society for Optics and Photonics: 1999; pp 38--48.
  • Ikeda, T., Photomodulation of liquid crystal orientations for photonic applications. Journal of Materials Chemistry 2003, 13 (9), 2037--2057.
  • Ichimura, K.; Suzuki, Y.; Seki, T.; Hosoki, A.; Aoki, K., Reversible change in alignment mode of nematic liquid crystals regulated photochemically by command surfaces modified with an azobenzene monolayer. Langmuir 1988, 4 (5), 1214--1216.
  • Ichimura, K.; Hayashi, Y.; Goto, K.; Ishizuki, N., Photocontrol of in--plane alignment of a nematic liquid crystal by a photochromic spiropyran molecular layer. Thin Solid Films 1993, 235 (1--2), 101--107.
  • Ichimura, K.; Hayashi, Y.; Akiyama, H.; Ishizuki, N., Photoregulation of in--plane reorientation of liquid crystals by azobenzenes laterally attached to substrate surfaces. Langmuir 1993, 9 (11), 3298--3304.
  • Ichimura, K.; Hayashi, Y.; Akiyama, H.; Ikeda, T.; Ishizuki, N., Photo‐optical liquid crystal cells driven by molecular rotors. Applied physics letters 1993, 63 (4), 449--451.
  • Ichimura, K.; Han, M.; Morino, S.--y., Photochemistry determined by light propagation. Part 1 three--dimensional photomanipulation of self--organized azobenzenes in liquid--crystalline polymers. Chemistry letters 1999, 28 (1), 85--86.
  • Ichimura, K.; Fujiwara, T.; Momose, M.; Matsunaga, D., Surface--assisted photoalignment control of lyotropic liquid crystals. Part 1. Characterisation and photoalignment of aqueous solutions of a water--soluble dye as lyotropic liquid crystals. Journal of Materials Chemistry 2002, 12 (12), 3380--3386.
  • Ichimura, K.; Akiyama, H.; Ishizuki, N.; Kawanishi, Y., Command surfaces, 6 Azimuthal orientation of liquid crystals photo‐controlled by an azobenzene pendent polymer. Die Makromolekulare Chemie, Rapid Communications 1993, 14 (12), 813--817.
  • Ichimura, K.; Akita, Y.; Akiyama, H.; Kudo, K.; Hayashi, Y., Photoreactivity of Polymers with Regioisomeric Cinnamate Side Chains and Their Ability To Regulate Liquid Crystal Alignment. Macromolecules 1997, 30 (4), 903--911.
  • Ichimura, K., Photoalignment of liquid--crystal systems. Chemical reviews 2000, 100 (5), 1847--1874.
  • Hoogboom, J.; Rasing, T.; Rowan, A. E.; Nolte, R. J., LCD alignment layers. Controlling nematic domain properties. Journal of Materials Chemistry 2006, 16 (14), 1305--1314.
  • Hindmarsh, P.; Owen, G.; Kelly, S.; Jackson, P.; O'Neill, M.; Karapinar, R., New coumarin polymers as non--contact alignment layers for liquid crystals. Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals 1999, 332 (1), 439--446.
  • Hegde, G.; Kozenkov, V. M.; Chigrinov, V.; Kwok, H., Photoisomerization in Photoaligned Azo Dyes Exhibiting Photostability. Molecular Crystals and Liquid Crystals 2009, 507 (1), 41--50.
  • He, R.; Wen, P.; Kang, S.--W.; Lee, S. H.; Lee, M.--H., Polyimide--free homogeneous photoalignment induced by polymerisable liquid crystal containing cinnamate moiety. Liquid Crystals 2018, 45 (9), 1342--1352.
  • Hashimoto, Y.; Kondo, M.; Sasaki, T.; Ono, H.; Kawatsuki, N., Homogenous photoalignment of nematic liquid crystals doped with photoalignable materials. Japanese Journal of Applied Physics 2017, 56 (7), 071701.
  • Hasegawa, M.; Taira, Y., Nematic homogeneous photo alignment by polyimide exposure to linearly polarized UV. Journal of Photopolymer Science and Technology 1995, 8 (2), 241--248.
  • Hasegawa, M., Photoalignment of Nematic Liquid Crystal by Polystyrene Exposed to Linearly Polarized Deep UV Light. Japanese journal of applied physics 1999, 38 (3A), L255.
  • Hasegawa, M., Modeling of photoinduced optical anisotropy and anchoring energy of polyimide exposed to linearly polarized deep UV light. Japanese journal of applied physics 1999, 38 (4B), L457.
  • Hahm, S. G.; Lee, S. W.; Lee, T. J.; Cho, S. A.; Chae, B.; Jung, Y. M.; Kim, S. B.; Ree, M., UV--driven switching of chain orientation and liquid crystal alignment in nanoscale thin films of a novel polyimide bearing stilbene moieties in the backbone. The Journal of Physical Chemistry B 2008, 112 (16), 4900--4912.
  • Guo, Q.; Srivastava, A.; Chigrinov, V.; Kwok, H., Polymer and azo--dye composite: a photo--alignment layer for liquid crystals. Liquid crystals 2014, 41 (10), 1465--1472.
  • Goodby, J. W., The nanoscale engineering of nematic liquid crystals for displays. Liquid Crystals 2011, 38 (11 12), 1363 1387.
  • Gibbons, W. M.; Shannon, P. J.; Sun, S.--T.; Swetlin, B. J., Surface--mediated alignment of nematic liquid crystals with polarized laser light. Nature 1991, 351 (6321), 49.
  • Geary, J.; Goodby, J.; Kmetz, A.; Patel, J., The mechanism of polymer alignment of liquid‐crystal materials. Journal of applied physics 1987, 62 (10), 4100--4108.
  • Fukuhara, K.; Nagano, S.; Hara, M.; Seki, T., Free--surface molecular command systems for photoalignment of liquid crystalline materials. Nat Commun 2014, 5, 3320.
  • Finnemeyer, V.; Bryant, D.; Reich, R.; Clark, H.; Berry, S.; Bozler, C.; Yaroshchuk, O.; Lu, L.; Bos, P., Versatile alignment layer method for new types of liquid crystal photonic devices. Journal of Applied Physics 2015, 118 (3), 034501.
  • Fedorenko, D.; Slyusarenko, K.; Ouskova, E.; Reshetnyak, V.; Ha, K.; Karapinar, R.; Reznikov, Y., Light--induced gliding of the easy orientation axis of a dye--doped nematic liquid crystal. Physical Review E 2008, 77 (6), 061705.
  • Fedorenko, D.; Ouskova, E.; Reshetnyak, V.; Reznikov, Y., Evolution of light--induced anchoring in dye--doped nematics: experiment and model. Physical Review E 2006, 73 (3), 031701.
  • Fang, G.; Shi, Y.; Maclennan, J. E.; Clark, N. A.; Farrow, M. J.; Walba, D. M., Photo--Reversible Liquid Crystal Alignment using Azobenzene--Based Self--Assembled Monolayers: Comparison of the Bare Monolayer and Liquid Crystal Reorientation Dynamics. Langmuir 2010, 26 (22), 17482--17488.
  • Dyadyusha, A.; Marusii, T. Y.; Reshetnyak, V. Y.; Reznikov, Y. A.; Khizhnyak, A., Orientational effect due to a change in the anisotropy of the interaction between a liquid crystal and a bounding surface. JETP lett 1992, 56 (1), 17--21.
  • Dyadyusha, A.; Kozinkov, V.; Marusii, T.; Reznikov, Y.; Reshetnyak, V.; Khizhnyak, A., Light--induced planar alignment of nematic liquid--crystal by the anisotropic surface without mechanical texture. Ukr. Fiz. Zh. 1991, 36, 1059--1061.
  • Dyadyusha, A.; Kozenkov, V.; Marusiy, T.; Reznikov, Y. A.; Reshetnyak, V. Y.; Khizhnyak, A., Light--induced planar alignment of nematic liquid--crystal by the anisotropic surface without mechanical texture. Ukrainskii Fizicheskii Zhurnal 1991, 36 (7), 1059--1062.
  • Dyadyusha, A.; Khizhnyak, A.; Marusii, T.; Reznikov, Y.; Yaroshchuk, O.; Reshetnyak, V.; Park, W.; Kwon, S.; Shin, H.; Kang, D., An Oblique Orientation of Nematic Liquid Crystals on a Photosensitive Aligning Polymer. Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals 1995, 263 (1), 399--413.
  • Dierking, I., Textures of liquid crystals. John Wiley & Sons: 2003.
  • Cull, B.; Shi, Y.; Kumar, S.; Schadt, M., Anisotropic surface morphology of poly(vinyl 4--methoxy--cinnamate) and 12--8(poly)diacetylene thin films induced by linear photopolymerization. Physical Review E 1996, 53 (4), 3777--3781.
  • Cui, L.; Xie, P.; Zhang, R.; Yang, T., Photo--driven liquid crystal cell with high sensitivity. Liquid crystals 1999, 26 (10), 1541--1546.
  • Creed, D.; Griffin, A. C.; Hoyle, C. E.; Venkataram, K., Chromophore aggregation and concomitant wavelength--dependent photochemistry of a main--chain liquid crystalline poly (aryl cinnamate). Journal of the American Chemical Society 1990, 112 (10), 4049--4050.
  • Collings, P. J.; Hird, M., Introduction to liquid crystals: chemistry and physics. CRC Press: 1997.
  • Collings, P. J., Liquid crystals: nature's delicate phase of matter. Princeton University Press: 2002.
  • Chigrinov, V.; Prudnikova, E.; Kozenkov, V.; Kwok, H.; Akiyama, H.; Kawara, T.; Takada, H.; Takatsu, H., Synthesis and properties of azo dye aligning layers for liquid crystal cells. Liquid Crystals 2002, 29 (10), 1321--1327.
  • Chigrinov, V. G.; Kozenkov, V.; Kwok, H. S., New developments in photo--aligning and photo--patterning technologies: physics and applications. Optical Applications of Liquid Crystals 2003, 201--244.
  • Chigrinov, V. G.; Kozenkov, V. M.; Kwok, H.--S., Photoalignment of liquid crystalline materials: physics and applications. John Wiley & Sons: 2008; Vol. 17.
  • Chen, R. H., Liquid crystal displays: fundamental physics and technology. John Wiley & Sons: 2011.
  • Chandrasekhar, S.; Ranganath, G. S., The structure and energetics of defects in liquid crystals. Advances in Physics 1986, 35 (6), 507--596.
  • Chae, B.; Lee, S. W.; Ree, M.; Jung, Y. M.; Kim, S. B., Photoreaction and Molecular Reorientation in a Nanoscaled Film of Poly(methyl 4--(methacryloyloxy)cinnamate) Studied by Two--Dimensional FTIR and UV Correlation Spectroscopy. Langmuir 2003, 19 (3), 687--695.
  • Camorani, P.; Cristofolini, L.; Fontana, M.; Angiolini, L.; Giorgini, L.; Paris, F., Azo--containing polymer brushes: photoalignment and application as command surfaces. Molecular Crystals and Liquid Crystals 2009, 502 (1), 56--64.
  • Bobrovsky, A.; Ryabchun, A.; Shibaev, V., Liquid crystals photoalignment by films of side--chain azobenzene--containing polymers with different molecular structure. Journal of Photochemistry and Photobiology A: Chemistry 2011, 218 (1), 137--142.
  • Bisoyi, H. K.; Li, Q., Light--Driven Liquid Crystalline Materials: From Photo--Induced Phase Transitions and Property Modulations to Applications. Chemical Reviews 2016, 116 (24), 15089--15166.
  • Bisoyi, H. K.; Li, Q., Light--Driven Liquid Crystalline Materials: From Photo--Induced Phase Transitions and Property Modulations to Applications. Chem Rev 2016, 116 (24), 15089--15166.
  • Bisoyi, H. K.; Bunning, T. J.; Li, Q., Stimuli‐driven control of the helical axis of self‐organized soft helical superstructures. Advanced Materials 2018, 30 (25), 1706512.
  • Berreman, D. W., Solid surface shape and the alignment of an adjacent nematic liquid crystal. Physical review letters 1972, 28 (26), 1683.
  • Berreman, D. W., Alignment of liquid crystals by grooved surfaces. Molecular Crystals and Liquid Crystals 1973, 23 (3--4), 215--231.
  • Bartkiewicz, S.; Matczyszyn, K.; Mysliwiec, J.; Yaroshchuk, O.; Kosa, T.; Palffy--Muharey, P., LC alignment controlled by photoordering and photorefraction in a command substrate. Molecular Crystals and Liquid Crystals 2004, 412 (1), 301--312.
  • Bahadur, B., Liquid crystals: applications and uses. World scientific: 1990; Vol. 1.
  • Ata Alla, R.; Hegde, G.; Komitov, L., Light--control of liquid crystal alignment from vertical to planar. Applied Physics Letters 2013, 102 (23), 233505.
  • Aoki, K.; Seki, T.; Suzuki, Y.; Tamaki, T.; Hosoki, A.; Ichimura, K., Factors affecting photoinduced alignment regulation of cyclohexanecarboxylate--type nematic liquid crystals by azobenzene molecular films. Langmuir 1992, 8 (3), 1007--1013.
  • Aoki, K.; Kawanishi, Y.; Seki, T.; Sakuragi, M.; Tamaki, T.; Ichimura, K., Reversible alignment change of liquid crystals induced by photochromic molecular films: Properties of azobenzene chromophores covalently attached to silica surfaces. Liquid Crystals 1995, 19 (1), 119--125.
  • Alkeskjold, T. T.; Scolari, L.; Noordegraaf, D.; L gsgaard, J.; Weirich, J.; Wei, L.; Tartarini, G.; Bassi, P.; Gauza, S.; Wu, S.--T.; Bjarklev, A., Integrating liquid crystal based optical devices in photonic crystal fibers. Optical and Quantum Electronics 2007, 39 (12), 1009--1019.
  • Akiyama, H.; Momose, M.; Ichimura, K.; Yamamura, S., Surface--selective modification of poly (vinyl alcohol) films with azobenzenes for in--plane alignment photocontrol of nematic liquid crystals. Macromolecules 1995, 28 (1), 288--293.
  • Akiyama, H.; Kudo, K.; Ichimura, K., Command surfaces, 10. Novel polymethacrylates with laterally attached azobenzene groups displaying photoinduced optical anisotropy. Macromolecular rapid communications 1995, 16 (1), 35--41.
  • Akiyama, H.; Kawara, T.; Takada, H.; Takatsu, H.; Chigrinov, V.; Prudnikova, E.; Kozenkov, V.; Kwok, H., Synthesis and properties of azo dye aligning layers for liquid crystal cells. Liquid Crystals 2002, 29 (10), 1321--1327.
  • Akita, Y.; Akiyama, H.; Kudo, K.; Hayashi, Y.; Ichimura, K., COMMAND SURFACES 13 [1]: PHOTOREGULATION OF IN--PLANE ALIGNMENT OF NEMATIC LIQUID CRYSTALS BY CINNAMATE PENDANT POLYMER FILMS. Journal of Photopolymer Science and Technology 1995, 8 (1), 75--78.