Research field (4):
Thin-film surfaces and interfaces
, Organic functional materials
, Electronic devices and equipment
, Thin-film surfaces and interfaces
Research theme for competitive and other funds (16):
2021 - 2024 量子ドットと発光ポリマーの協同作用を用いたハイブリッド発光ダイオードの研究
2015 - 2018 Development of highly sensitive, high-speed hybrid gas sensors using nano-carbon electrodes and polymeric functional materials
2010 - 2012 Improvement of open-circuit voltage in organic solar cells by the insertion of ultra-thin carrier selective layers and new types of self-organized organic semiconductors
2005 - 2007 フレキシブルな量子形状構造を持つ有機単電子トンネル素子特性
2001 - 2002 有機半導体超薄膜のイオン分極制御と高効率光電変換に関する研究
2000 - 2002 Synchronous optical modulator by liquid crystal orientation
1999 - 2001 超構造有機蒸着薄膜を用いた界面制御形静電メモリーの構築
Development of new type thin film sensors and their applications
Application of quantum dots for organic electronics
2D nano-materials and devices
Development of new type thin film sensors and their applications
Hybrid devices & materials
Interfacial Electronic Phenomena
Printable Electronics
Organic Electronics
Dielectric nano-materials and thin film technologies
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Papers (85):
Improvement of device performance of Ph-BTBT-10 field-effect transistors fabricated on a HfO2/alicyclic polyimide double-layered gate insulator. Japanese Journal of Applied Physics. 2022. 61. SB1008-1-SB1008-6
Fabrication of inverted inorganic-organic quantum-dot light-emitting diodes with solutionprocessed n-type oxide electron injection layers and QD-polymer blend light-emitting layers. Japanese Journal of Applied Physics. 2022. 61. SE1018-1-SE1018-6
FumiyaAikawa, Junpei Ueno, Toshiaki Kashiwagi, and Eiji Itoh. Improvement of field-effect transistor performance with highly oriented, vertically phase separated TIPS-pentacene/polystylene blends on high-k metal oxide films by using meniscus coating. Japanese Journal of Applied Physics. 2020. 59. SCCA10
Eiji Itoh, Reo Taguchi, and Katsutoshi Fukuda. Inverted polymer LEDs with solution-processed nano-hybrid electron buffer layers. Japanese Journal of Applied Physics. 2020. 59. SDDC08
Eiji Itoh, Shota Sakai, Katsutoshi Fukuda. Inverted bulk-heterojunction organic solar cells with the transfer-printed anodes and low-temperature- processed ultrathin buffer layers. Japanese Journal of Applied Physics. 2018. 57. 03EJ07
Itoh Eiji. CS-4-3 Fabrication of Organic Electronic Devices by Softlithography Techniques. Proceedings of the IEICE General Conference. 2013. 2013. 2. "S-17"
Eiji Itoh, Mitsumasa Iwamoto. Interfacial electorostatic phenomena and capacitance-voltage characteristics on ultrathin polyimide langmuir-Blodgett films. Journal of Applied Physics. 1999. 85. 10. 7239-7244
Education (2):
1995 - 1998 Tokyo Institute of Technology Department of Physical electronics
- 1993 Tokyo Institute of Technology Faculty of Engineering
Professional career (1):
博士(工学) (日本)
Work history (5):
2015/04 - Faculty of Engineering, Shinshu University, Professor
2007/04 - Faculty of Engineering, Shinshu University, Associate Professor
2004/04 - Faculty of Engineering, Shinshu University, Associate Professor
2003/05 - 2004/03 University of Wales and University of Exeter, UK Visiting Researcher
1998 - Faculty of Engineering, Shinshu University Research Assistant
