Title | Authors | Journal | Volume | Publication date |
---|---|---|---|---|
Synthesis of Amphiphilic Triblock Copolymers by ATRP and Coalescence Suppression Effect in Suspension Polymerization | Eri Fujita, Tsubasa Oshima, Kosuke Kaneko, Daiki Fujioka, Kimiyoshi Kaneko, Kiyomi Fuchigami, and Tomonori Hanasaki | Journal of Chemical Engineering of Japan | 56, 1 | 2023 |
Helical Network Polymers Embodying High Dissymmetry Factors in Circularly Polarized Luminescence: Photocrosslinking Polymerization of Acrylate Derivatives in Chiral Smectic Liquid Crystals | Hiromasa Yamamoto, Takuya Inagaki, Jinwoo Park, Satoru Yoshida, Kosuke Kaneko, Tomonori Hanasaki, and Kazuo Akagi | Macromolecules | 54/19, 8977–8986 | 2021 |
Electrorheological effect of gold nanoparticles coated with fluorescent mesogenic groups dispersed in nematic liquid crystal | Kaneko, Kosuke; Yamashita, Kosuke; Fujioka, Daiki; Kaneko, Kimiyoshi; Fuchigami, Kiyomi; Hashishin, Takeshi; Hanasaki, Tomonori | Crystals | 11 /2, 192 | 2021 |
Photoinvertible Chiral Liquid Crystal that Affords Helicity-Controlled Aromatic Conjugated Polymers | Yoshida, Satoru; Morikawa, Santa; Ueda, Kenta; Hidaka, Masatomo; Kaneko, Kosuke; Kaneko, Kimiyoshi; Hanasaki, Tomonori; Akagi, Kazuo | Advanced Optical Material | 8 /20, 2000936 | 2020 |
Low-temperature and high-pressure phase changes of room-temperature ionic liquids | Abe, Hiroshi; Kishimura, Hiroaki; Takekiyo, Takahiro; Hanasaki, Tomonori; Yoshimura, Yukihiro; Hamaya, Nozomu | Journal of Molecular Liquids | 300, 112340 | 2020 |
Nucleophilic arylation of halopurines facilitated by Bronsted acid in fluoroalcohol | Takenaga, Naoko; Shoji, Toshitaka; Menjo, Takayuki; Hirai, Akiko; Ueda, Shohei; Kikushima, Kotaro; Hanasaki, Tomonori; Dohi, Toshifumi | Molecules | 24/21, 3812 | 2019 |
Electrorheological properties of dual frequency liquid crystal in smectic A phase | Matsuoka, Narumi; Kaneko, Kosuke; Kaneko, Kimiyoshi; Takikawa, Yoshinori; Fukao, Koji; Hanasaki, Tomonori | Chemistry Letters | 48 /4, 386-389 | 2019 |
Design and phase transition behavior of siloxane-based monomeric and dimeric liquid crystals bearing cholesteryl mesogenic groups | Katsuki, Kaito; Kaneko, Kosuke; Kaneko, Kimiyoshi; Kato, Riki; Miyamoto, Nobuyoshi; Hanasaki, Tomonori | Journal of Organometallic Chemistry | 886, 34-39 | 2019 |
Chiral Liquid-Crystalline Ionic Liquid Systems Useful for Electrochemical Polymerization that Affords Helical Conjugated Polymers | Yamakawa, Shohei; Wada, Kohei; Hidaka, Masatomo; Hanasaki, Tomonori; Akagi, Kazuo | Advanced Functional Materials | 45289 | 2019 |
Induced homeotropic alignment of nematic liquid crystals by doping side-on carbosilane-based oligomers | Kaneko, Kosuke; Goto, Masaki; Haketa, Yohei; Maeda, Hiromitsu; Hanasaki, Tomonori | Chemistry Letters | 47 /9, 1180-1183 | 2018 |
Electrorheological properties of liquid crystalline gold nanoparticles in a nematic solvent | Kaneko, K.; Iizuka, Y.; Ujihara, Y.; Hashishin, T.; Hanasaki, T. | Zhidkie Kristally i Ikh Prakticheskoe Ispol'zovanie | 17/2, 28-34 | 2017 |
Liquid Crystalline Supramolecular Organization by the Adenine-Thymine Base Pair | K. Kaneko, S. Yoshikai, H. China, T. Hanasaki | Chemistry Letters | 45/ 5, 514-516 | 2016 |
Electric-Field-Induced Viscosity Change of a Nematic Liquid Crystal with Gold Nanoparticles | Kosuke Kaneko, Yoshihiro Ujihara, Kodai Oto, Takeshi Hashishin, Tomonori Hanasaki | ChemPhysChem | 16/5, 911-922 | 2015 |
Structural and conformational properties of the quaternary ammonium ionic liquid N,N-diethyl-N-methyl-N-(2-methoxyethyl) ammonium iodide | Shu Tsuge, Kenjiro Uno, Tomonori Hanasaki, Takahiro Takekiyo, Hiroshi Abe, Yukihiro Yoshimura | Journal of Molecular Structure | 1060/ 208-214 | 2014 |
Lateral solidification of a liquid crystalline semiconductor film induced by temperature gradient | Tomoya Hoshino, Hayato Ito, Ichiro Fujieda, Tomonori Hanasaki | Proceedings of SPIE | 8831, 883115 | 2013 |
Photo-induced threshold and onset voltage shifts in organic thin-film transistors | Ichiro FUJIEDA, Tse Nga NG, Tomoya HOSHINO, Tomonori HANASAKI | IEICE Transactions on Electronics | E96-C/ 11, 1360-1366 | 2013 |
Electro-Rheological Effect and Electro-Optical Properties of Side-on Liquid Crystalline Polysiloxane in a Nematic Solvent | K. Kaneko, K. Oto, T. Kawai, H. Choi, H. Kikuchi, and N. Nakamura | ChemPhysChem | 14, 2704-2710. | 2013 |
Inexpensive fabrication of physical medium-size model of Truss-Z modules | Zawidzki M., Nishinari K., Hanasaki T., Sugimoto H. | Proceedings of ICGG 2012: the 15th International Conference on Geometry and Graphics | 2012, #07/1-8 | 2012 |
シロキサン系液晶材料の電気粘性効果に関する研究 | 金子光佑, 中村尚武 | 液晶 | 16, 61-67 | 2012 |
A model for photo-induced threshold voltage shift in a transistor based on a BTBT derivative | Ichiro Fujieda, Tomoya Hoshino, Tomonori Hanasaki | Proceedings of 19th International Display Workshops | 2012, 959-960 | 2012 |
Glass Transition Behavior of the Quaternary Ammonium Type Ionic Liquid, N,N- diethyl-N-methyl-N-(2-methoxyethyl)ammonium bromide-H2O Mixtures | Yukihiro Yoshimura, Naohiro Hatano, Yusuke Imai, Hiroshi Abe, Osamu Shimada, Tomonori Hanasaki | Journal of Thermodynamics (a special issue on Advances in Physicochemical Properties of Ionic Liquid) | 2012, 575728 | 2012 |
A photo-aligned self-assembled monolayer for polymer transistors | Tatsuhiko Kawaguchi, Takehiro Okura, Yuusuke Suenaga, Tomonori Hanasaki, Ichiro Fujieda | Proceedings of SPIE | 8258, 825819/1-825819/10 | 44938 |
Vibration-induced mobility enhancement for a polymer transistor | Yuuki Kondo, Tomonori Hiraki, Yuusuke Suenaga, Tomonori Hanasaki, Ichiro Fujieda | Proceedings of SPIE | 8258, 82581A/1-82581A/6 | 44938 |
Dual Frequency Operation of a Blue Phase Liquid Crystal | S. Yabu, H. Yoshida, G. Lim, K. Kaneko, Y. Okumura, N. Uehara, H. Kikuchi, and M. Ozaki | Optical Materials Express | 1, 1577-1584 | 2011 |
ラジカル重合におけるバルビツール酸誘導体の触媒作用に関する研究 | 渕上清実,平田俊輔,澤田悠希,藤村英史,花﨑知則 | 高分子論文集 | 68/ 7, 509-516 | 45118 |
The phase transition behavior and electro-rheological effect of liquid crystalline siloxane dimers | T.Hanasaki, Y.Kamei, A.Mandai, K.Uno, and K.Kaneko | Liquid Crystals | 38/ 7, 841-848 | 45118 |
Glass transition behaviour of the quaternary ammonium type ionic liquid, {[DEME][I] + H2O} mixtures | Yusuke Imai, Hiroshi Abe, Hitoshi Matsumoto, Osamu Shimada, Tomonori Hanasaki, Yukihiro Yoshimura | J. Chem. Thermodynamics | 43/ 3, 319–322 | 44996 |
展望 ''液晶と高分子'' | 菊池裕嗣, 金子光佑, 樋口博紀 | 高分子 | 59, 465-468 | 2010 |
Electro-Rheological effect of blends composed of two liquid crystalline materials : Composition dependence | K. Kaneko, A. Mandai, Y. Kamei, Y. Miwa, and N. Nakamura | Liquid Crystals | 37, 559-605 | 2010 |
Electric-Field-Induced Reversible Viscosity Change in a Columnar Liquid Crystal | Kosuke Kaneko, Atsuhiko Mandai, Benoit Heinrich, Bertrand Donnio and Tomonori Hanasaki | ChemPhysChem | 11/ 17, 3596-3598 | 45270 |
Micron-Sized Main-Chain Liquid Crystalline Elastomer Actuators with Ultralarge Amplitude Contractions | H. Yang, A. Buguin, J.-M. Taulemesse, K. Kaneko, S. Méry, A. Bergeret, and P. Keller | Journal of the American Chemical Society | 131, 15000-15004 | 2009 |
Electro-Rheological Effect of ''Side-On'' Liquid Crystalline Polysiloxane | K. Kaneko, T. Kawai, and N. Nakamura | ChemPhysChem | 9, 2457-2460 | 2008 |
Electro-rheological effect and dynamic rheological properties of a blend composed of two liquid crystalline materials with different molecular weight | K. Kaneko, Y. Miwa, and N. Nakamura | Polymer | 48, 7264-7270 | 2007 |
Study on an Electrorheological Effect of Side-Chain Polysiloxanes Including Fluorine Atoms by the Preshearing Method | K. Kaneko, Y. Miwa, and N. Nakamura | Molecular Crystals and Liquid Crystals | 473, 43-55 | 2007 |
Phase Transition Behavior and ER Effect of Liquid Crystalline Cyclic-Siloxanes with Fluorine Atoms | K. Kaneko, Y. Miwa, and N. Nakamura | Journal of Applied Polymer Science | 105, 2474-2481 | 2007 |
A novel pre-shearing technique for measurement of the electrorheological effect of side chain liquid crystalline polysiloxane | K. Kaneko, and N. Nakamura | Liquid Crystals | 34, 229-234 | 2007 |
Clean Batch and Micro Reactors Processes Based on Environmentally Friendly Solid-Supported Homogeneous Catalysts | P.Styring, N.T.S.Phan, D.H.Brown, T.Hanasaki, B.O’Sullivan, R.W.K.Allen, and A.I. Parracho | 7th World Congress of Chemical Engineering Proceedings | 83107/1-83107/10 | 2005 |
Rate Enhancement in Micro Flow Reactors’, Switching from Batch to Continuous Processing | P.Styring, N.T.S.Phan, D.H.Brown, T.Hanasaki, B.O’Sullivan, R.W.K.Allen, A.I.Parracho, and P.L.Lau | Proceedings of IChemE | 2004 | |
Syntheses and Physical Properties of Ferrocene Derivatives(XVI) Crystal Structure of a Liquid Crystalline Ferrocene Derivative, 5-[4-(4-methoxyphenoxycarbonyl)phenoxycarbonyl]pentyl 4-ferrocenylbenzoate | N.Nakamura, T.Takahashi, K.Uno, and T.Hanasaki | Molecular Crystals and Liquid Crystals | Vol.383, 27-35 | 2002 |
Liquid crystallinity of non-symmetrical dimeric conpound ( I ) Synthesis of 4-(4'-benzyloxy)biphenyl cholesteryl alkanedioates and Their Phase Transition Behavior | T.Hanasaki, J.Kawashima, N.Morishita, and T.Yamamoto | Molecular Crystals and Liquid Crystals | Vol.365, 15-22 | 2001 |
Syntheses and Physical Properties of Ferrocene Derivatives(XIII) Liquid Crystallinity of ω-[4-(4-methoxyphenoxycarbonyl)phenoxycarbonyl]alkyl 4-ferrocenylbennzoate with octyl and nonyl groups as an alkyl one | N.Nakamura, S.Setodoi, and T.Hanasaki | Molecular Crystals and Liquid Crystals | Vol.350, 93-101 | 2000 |
Liquid Crystallinity of Unsymmetrical Ferrocene Derivatives(I) Synthesis of Unsymmetrically 1,1'-Disubstituted Ferrocene Derivatives and Their Phase Transition Behavior | T.Hanasaki, K.Matsushita, T.Watanabe, S.Enomoto, and Y.Sato | Molecular Crystals and Liquid Crystals | Vol.351, 103-110 | 2000 |
Syntheses and Physical Properties of Ferrocene Derivatives(XIV) Dynamic Viscoelastic Property of Liquid Crystalline Ferrocene Derivatives Containing Cholesteryl Group as a Mesogenic One | N.Nakamura, H.Maekawahara, T.Hanasaki, and T.Yamaguchi | Molecular Crystals and Liquid Crystals | Vol.352, 125-132 | 2000 |
Syntheses and Physical Properties of Ferrocene Derivatives(VII) Phase Transition Behavior and Liquid Crystal Structure of 1,1'-Disubstituted Ferrocene Derivatives | N.Nakamura, R.Mizoguchi, M.Ueda, and T.Hanasaki | Molecular Crystals and Liquid Crystals | Vol.312, 127-136 | 1998 |
非対称型の構造を持つ1,1'-二置換フェロセン誘導体の合成とその相転移挙動 | 花崎知則,佐藤祐太 | 静岡理工科大学紀要 | Vol.7, 215-220 | 1998 |
高校理科教育に対する大学の役割 | 静岡理工科大学紀要 | Vol.6, 147-150 | 1997 | |
液晶性フェロセン誘導体(I) 液晶性モノ置換フェロセン誘導体の構造と物性 | 花崎知則,中村尚武 | 静岡理工科大学紀要 | Vol.5, 199-211 | 1996 |
Syntheses and Physical Properties of Ferrocene Derivatives(V) A Study on the Phase Transition of Liquid Crystals Containing Ferrocene by X-ray PSPC System | N.Nakamura, T.Oida, M.Shonago, H.Onoi, and T.Hanasaki | Molecular Crystals and Liquid Crystals | Vol.265, 1-8 | 1995 |
Syntheses and Physical Properties of Ferrocene Derivatives(III) Liquid Crystallinity of Disubstituted Ferrocene Derivatives | T.Hanasaki, M.Ueda, and N.Nakamura | Molecular Crystals and Liquid Crystals | Vol.250, 257-267 | 1994 |
Syntheses and Physical Properties of Ferrocene Derivatives(IV) A Study on the Smectic Structure of Ferrocene Derivatives Containing a Cholesteryl Group | N.Nakamura, H.Onoi, T.Oida, and T.Hanasaki | Molecular Crystals and Liquid Crystals | Vol.257, 43-48 | 1994 |
Mossbauer Spectroscopic Study of Ferroncene Derivatives in the Adsorption and Liquid-crytalline States | H.Sato, I.Kusudo, M.Sugiyama, T.Hanasaki, and N.Nakamura | Hyperfine Interactions | Vol.93,1585-1590 | 1994 |
Syntheses and Physical Properties of Ferrocene Derivatives(I) Liquid Crystallinity of Ferrocene Derivatives Containing Cholesteryl Group | N.Nakamura, T.Hanasaki, and H.Onoi | Molecular Crystals and Liquid Crystals | Vol.225, 269-277 | 1993 |
Syntheses and Physical Properties of Ferrocene Derivatives(II) Liquid Crystallinity and Multiple Melting Behavior of Ferrocene Derivatives | T.Hanasaki, M.Ueda, and N.Nakamura | Molecular Crystals and Liquid Crystals | Vol.237, 329-336 | 1993 |
Liquid Crystallinity of Monosubstituted Ferrocene Derivatives Containing Cholesteryl Group | N.Nakamura, T.Hanasaki, H.Onoi, and T.Oida | Chemistry Express | Vol.8, No.7, 467-470 | 34151 |