Research theme for competitive and other funds (12):
2022 - 2025 Creation of pi-sigma-pi Dyad for Control of Multiexcitons and Solid-state Photon Upconversion
2021 - 2024 Development of organic semiconductors and their application to light-emitting devices by means of machine learning approach and quantum chemical calculation
2020 - 2023 Establishment of Innovative Theoretical Approaches for the Design of Amorphous Organic Semiconductors
2020 - 2022 Creation of Intramolecular Singlet Fission System Generating High-energy Multiexciton
2018 - 2020 ダイアド配置の精密制御による高効率フォトンアップコンバージョン系の構築
2017 - 2020 Theory and fabrication of printable inverted organic light-emitting diodes for flexible devices
2019 - 2020 分子内三重項ー三重項消滅による高効率フォトンアップコンバージョン
2017 - 2018 時間分解電子スピン共鳴法を用いた一重項分裂過程の観測
2017 - 2018 ヨウ素の重原子効果を利用した常温リン光材料の開発
2017 - 2018 分子内三重項-三重項消滅を利用したフォトン・アップコンバージョンの高効率化
2012 - 2017 Creation and Function of Redox-Responsible Open-shell Chemical Species with Highly Emissive Properties
the Society of Iodine Science
, THE SOCIETY OF SYNTHETIC ORGANIC CHEMISTRY, JAPAN
, KINKI CHEMICAL SOCIETY, JAPAN
, 基礎有機化学会
, THE JAPANESE PHOTOCEHMISTRY ASSOCIATION
, THE CHEMICAL SOCIETY OF JAPAN