Rchr
J-GLOBAL ID:200901054372174804   Update date: Sep. 19, 2024

Mitsuhiro Akimoto

アキモト ミツヒロ | Mitsuhiro Akimoto
Affiliation and department:
Tokyo University of Science,Yamaguchi Faculty of engineering Electrical subject

About Tokyo University of Science,Yamaguchi Faculty of engineering Electrical subject


Research field  (3): Crystal engineering ,  Applied materials ,  Mathematical physics and basic theory
Research keywords  (9): ソフトマターの物理 ,  液晶材料・素子 ,  非平衡・非線形物理学 ,  統計物理学 ,  Soft-condensed matter physics ,  Materials of Liquid Crystals ,  Liquid Crystal Devices ,  Nonequilibrium and Nonlinear Physics ,  Statistical Physics
Research theme for competitive and other funds  (2):
  • 2008 - 2009 誘電性ナノ粒子の液晶配向膜への応用
  • 2008 - 2009 Application of dielectric nanoparticles to alignment layer of liquid-crystal devices
Papers (56):
  • Masahiro Ito, Eriko Fukuda, Mitsuhiro Akimoto, Hikaru Hoketsu, Yukitaka Nakazono, Haruki Tohriyama, Kohki Takatoh. Angular Dependence of Guest-Host Liquid Crystal Devices with High Pretilt Angle Using Mixture of Vertical and Horizontal Alignment Materials. Crystals. 2023. 13. 4. 696-696
  • Masahiro Ito, Mitsuhiro Akimoto, Yukinobu Hara, Junpei Mitsutake, Kaoru Shiozaki, Kohki Takatoh. Polymer sustained alignment for vertical aligned liquid crystal devices with a fast response and high contrast. Liquid Crystals. 2022. 49. 14. 1892-1900
  • E. Fukuda, M. Akimoto, M. Miyazaki, S. Kobayashi. UV-Curable Silica NPs as a Reinforcing Component in Reverse Mode Polymer-Network LC Light Scattering Device Fabricated Under Different Curing Conditions. Proceedings of the International Display Workshops (IDW’19). 2019. 26. 356-359
  • Surfactants Synergistically Contributes to Reduction of Driving Voltage of Reverse-Mode Polymer Network Liquid Crystals with UV-Curable Nanoparticles. Proceedings of the International Display Workshops (IDW’19). 2019. 26. 360-363
  • Eriko Fukuda, Mitsuhiro Akimoto, Shunsuke Kobayashi, Masahiro Miyazaki. Reduction of Driving Voltage of Reverse Mode LC Light-Scattering Device by Incorporating UV Curable Silica NPs. Proceedings of the International Display Workshops (IDW’18). 2018. 25. 185-188
more...
MISC (19):
more...
Lectures and oral presentations  (164):
  • 機能性ナノ粒子による高分子安定化コレステリック液晶回折素子の電気光学特性の改善
    (2020年電子情報通信学会総合大会 2020)
  • 光重合性官能基被覆ナノ粒子添加による垂直配向型リバースモード液晶調光素子の駆動電圧低減
    (2019年日本液晶学会討論会 2019)
  • 光重合性官能基被覆ナノ粒子が高分子液晶複合材料の重合誘起相分離過程に及ぼす影響
    (2019年日本液晶学会討論会 2019)
  • パターン化配向表面による液晶中微粒子の泳動方向制御
    (2019年日本液晶学会討論会 2019)
  • Application of UV-curable nanoparticles to polymer-dispersed liquid crystals and other related composites
    (Asia Pacific Society for Materials Research 2019 Annual Meeting 2019)
more...
Education (3):
  • 2001 - 2007 Tokyo University of Science Graduate School of Science
  • 1999 - 2001 Tokyo University of Science Graduate School of Science
  • 1995 - 1999 Tokyo University of Science
Professional career (1):
  • Doctor of Science (Tokyo University of Science)
Work history (2):
  • 2014/04 - 現在 Sanyo-Onoda City University Faculty of Engineering Department of Electrical Engineering Junior Associate Professor
  • 2007/04 - 2013/03 Tokyo University of Science,Yamaguchi Faculty of Engineering Electrical Engineering
Committee career (1):
  • 2014/06 - 2016/05 Technical Program Committee, LC Technologies
Awards (1):
  • 2012/12 - The Institute of Image Information and Television Engineers IDW/AD '12 Outstanding Poster Paper Award Polymer Stabilization of Reverse Twisted Nematic LCD with UV Curable LC Monomer
Association Membership(s) (3):
電子情報通信学会 ,  応用物理学会 ,  日本液晶学会
※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

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