Session Details
[17a-M_B104-1~11]12.3 Functional Materials and Novel Devices
Tue. Mar 17, 2026 9:00 AM - 12:00 PM JST
Tue. Mar 17, 2026 12:00 AM - 3:00 AM UTC
Tue. Mar 17, 2026 12:00 AM - 3:00 AM UTC
M_B104 (Main Bldg.)
[17a-M_B104-1][The 59th Young Scientist Presentation Award Speech] Molecular Design of Near Infrared Two-Photon Responsive TADF Emitters and Their Application in Vaccum-Deposited OLEDs
〇Youhei Chitose1,2,5, Gomathi Vinayakam Mageswari1, Ryota Zenke1, Toshiharu Ide1, Shintaro Kohata1, Ja-Hon Lin3, Tzu-Chau Lin4, Youichi Tsuchiya1, Chihaya Adachi1,5 (1.OPERA, Kyushu Univ., 2.CMS, Kyushu Univ., 3.NTUT, 4.NCU, 5.I2CNER, Kyushu Univ.)
[17a-M_B104-2]Fully quantum-mechanical comparison of entangled two-photon absorption with laser-pulse two-photon absorption
〇Hisaki Oka1,3, Sena Hashimoto2, Izumi Iwakura2 (1.Kanagawa Univ., 2.Kanagawa Unv, 3.KESCO)
[17a-M_B104-3]Light-driven Control of Twisted Bipolar Microparticles by Polarized Optical Tweezers
〇(M2)Makoto Okumura1, Soh Kushida1, Ken-ichi Yuyama2, Yohei Yamamoto1 (1.Univ. of Tsukuba, 2.Osaka Metro Univ.)
[17a-M_B104-4]Design of Organic Laser Emitters Exhibiting both Low-threshold and High Stability
〇Shota Fukuma1,2, Velten Jean3, Xun Tang1,2, Chihaya Adachi1,2,4 (1.OPERA, Kyushu Univ., 2.Eng. Kyushu Univ., 3.Johannes Gutenberg Univ., 4.I2CNER, Kyushu Univ.)
[17a-M_B104-5]Lasing in Liquid Crystalline Shells
〇Yoshiaki Uchida1 (1.Univ. Osaka)
[17a-M_B104-6]Anthracene derivatives have garnered attention as promising gain media for OSL. However, reports on their ASE characteristics, and the between molecular structure and ASE activity remains largely unexplored. In this study, an anthracene derivative ASE activity was used as a model compound to systematically elucidate the structural and photophysical factors governing ASE activity.
〇(M2)Aoi Haraguchi1, Goushi Kenichi2, Atul Shukla3, Ebinazar B Namdas3, Shin-Chun Lo3, Adachi Chihaya1,4 (1.OPERA, Kyushu Univ., 2.Kyushu Univ., 3.Queensland Univ., 4.I2CNER, Kyushu Univ.)
[17a-M_B104-7]Organic semiconductor lasers are promising for various applications, but under CW excitation and electrical excitation, optical loss caused by the accumulation of triplet excitons. The main cause is excitons loss due to singlet-triplet annihilation and triplet absorption. In this study, we designed a molecule exhibiting both ASE and TTU properties to suppress triplets’ accumulation.
〇(M2)Aoi Haraguchi1, Goushi Kenichi2, Adachi Chihaya1,3 (1.OPERA, Kyushu Univ., 2.Kyushu Univ., 3.I2CNER, Kyushu Univ.)
[17a-M_B104-8]Suppressed Exciplex Formation and Enhanced Photoluminescence Efficiency in Weakly Coupled Microcavities
〇Tomohiro Ishii1, Stephane Kena-Cohen2 (1.RIES, Hokkaido Univ., 2.Polytechnique Montreal)
[17a-M_B104-9]Corona-Poling-Induced SHG Properties of Vapor-Deposited Polyurea Thin Films
〇Serina Tamaki1, Tatsumi Kitamura1, Masayoshi Yamiya1, Ryosuke Matsubara1, Atsushi Kubono1, Atsushi Sugita1 (1.Shizuoka Univ.)
[17a-M_B104-10]Development and characterization of sidechain electro-optic polymers with methoxy adamantan methacrylate and isocyanatoethyl methacrylate co-polymer
〇Toshiki Yamada1, Koichi Tanaka1, Chiyumi Yamada1, Shu Ohara1, Chiyumi Yamada1, Takahiro Kaji1, Akira Otomo1, Kouki Kouki Tsubaki2, Tomoya Mizumori2 (1.NICT, 2.Osaka Organic Chemical Industry)
[17a-M_B104-11]Orientation control and thermal stability test of high-performance organic electro-optic thin films
〇Keishi Sunami1, Sachio Horiuchi1, Yoriko Sonoda1, Naomi Fujiki1, Toshiki Higashino1, Yuki Atsumi1, Shoji Ishibashi1, Jun'ya Tsutsumi1 (1.AIST)