Session Details
[15p-WL1_201-1~9]Bridging the Gap: Computational Approaches to Address Challenges in Photoelectronic Organic Devices at the Physical-Cyberspace
Sun. Mar 15, 2026 1:30 PM - 5:15 PM JST
Sun. Mar 15, 2026 4:30 AM - 8:15 AM UTC
Sun. Mar 15, 2026 4:30 AM - 8:15 AM UTC
WL1_201 (West Lecture Bldg. 1)
[15p-WL1_201-1]Introductory Talk
〇Yasuo Nakayama1 (1.Tokyo Univ. of Science)
[15p-WL1_201-2]Physical Modeling of Organic Thin-Film Growth: Bridging Real Systems and Simulations
〇Atsushi Kubono1 (1.Shizuoka Univ.)
[15p-WL1_201-3]Synergy of Experiment, Calculation, and Data Science for Organic Transistor Study
〇Hiroyuki Matsui1, Tomoharu Okada1, Koki Ozawa1,2, Ren Sasaki1, Hiroto Otokozawa1, Jintaro Endo1, Tomoka Suzuki1, Daichi Ikejima1, Wataru Miyata1, Rikuo Suzuki1, Ryota Kobayashi1, Kazuki Ono1, Satoru Inoue3,4, Tatsuo Hasegawa4 (1.ROEL, Yamagata Univ., 2.JSPS Research Fellow, 3.INOEL, Yamagata Univ., 4.Univ. of Tokyo)
[15p-WL1_201-4]Epitaxial growth of di-n-alkylated perylene-3,4:9,10-bis(dicarboximide)s on single-crystal surfaces of p-type organic semiconductors
〇Yasuo Nakayama1, Geng Li1, Kosei Ito1, Yoshinosuke Watanabe1, Rosantha Kumara2, Tomoyuki Koganezawa2, Hiroyuki Hattori1 (1.TUS, 2.JASRI)
[15p-WL1_201-5]Spontaneous orientation polarization in amorphous organic semiconducting films and its impact on operation and degradation of OLEDs
〇Yutaka Noguchi1 (1.Meiji Univ.)
[15p-WL1_201-6]Study on Molecular Beam Sources in the DNTT Thin-Film Deposition Process via Slow Deposition Method Using Molecular Dynamics Simulation
〇Nobuya Hiroshiba1, Hirotaka Kojima2 (1.Osaka Inst. of Tech., 2.N.I.T. (KOSEN), Maizuru.)
[15p-WL1_201-7]Molecular simulation study of structure and spectroscopy at interfaces
〇Tatsuya Ishiyama1 (1.Univ. of Toyama)
[15p-WL1_201-8]Mass transport governed by spatial heterogeneity: Insights from large-scale molecular dynamics and a novel dynamic Monte Carlo method
〇Tetsuro Nagai1 (1.Okayama Univ.)
[15p-WL1_201-9]Comparison and perspective of computer simulation and expriments about organic devices processing
〇Toshihiro Shimada1 (1.Hokkaido Univ.)