Kudo Kazuhiro | Oitda Advanced Organic Device Project Chiba Laboratory
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概要
関連著者
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Kudo K
Chiba Univ. Chiba Jpn
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Kudo Kazuhiro
Department Of Electronic And Mechanical Engineering Faculty Chiba University
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Kudo Kazuhiro
Oitda Advanced Organic Device Project Chiba Laboratory
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KUDO Kazuhiro
Chiba University
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Kudo Kazuhiro
Chiba Univ. Chiba Jpn
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Kudo Kazuhiro
Chiba University Faculty Of Engineering
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Kudo Kazuhiro
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
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NAKAMURA Masakazu
Chiba University
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Nakamura Masakazu
Chiba Univ. Chiba Jpn
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Nakamura Minoru
Ntt Access Network Service Systems Laboratories Ntt Corporation
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Nakamura Masakazu
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
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IIZUKA Masaaki
Chiba University
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Iizuka Masaaki
Faculty Of Education Chiba University
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Watanabe Yasuyuki
Center for Frontier Science, Chiba University
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Watanabe Yasuyuki
Center For Frontier Science Chiba University
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Iechi Hiroyuki
Technology R&d Center Ricoh Co. Ltd.
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Iechi Hiroyuki
Ricoh Co. Ltd Environmental Technology R&d Center
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Yamauchi Hiroshi
Graduate School Of Engineering Chiba University
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Kudo Kazuhiro
Department Of Clinical Pathology Hakodate Municipal Hospital
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Kudo Kazuhiro
Department Of Dermatology Tohoku University School Of Medicine
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NAKAMURA Masakazu
Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University
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Nakamura Masakazu
Department Of Electronics And Mechanical Engineering Chiba University
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Sakai Masatoshi
Department Of Electrical And Electronic Engineering Chiba University
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Nakamura Masakazu
Department Of Electrical Engineering Faculty Of Engineering Science Osaka University
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Nakamura Masakazu
Department of Applied Chemistry, Faculty of Engineering, Keio University
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SAKAI Masatoshi
Department of Electrical and Electronic Engineering, Chiba University
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Ohashi Noboru
Department Of Electrical And Electronic Engineering Graduate School Of Engineering Chiba University
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Iizuka Masaaki
Department Of Electronics And Mechanical Engineering Chiba University
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OHASHI Noboru
Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University
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Iizuka Masaaki
Chiba Univ. Chiba Jpn
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KUDO Kazuhiro
Graduate School of Engineering, Chiba University
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YAMAUCHI Hiroshi
Faculty of Engineering, Chiba University
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WATANABE Yasuyuki
OITDA, Advanced Organic Device Project, Chiba Laboratory
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IECHI Hiroyuki
OITDA, Advanced Organic Device Project, Chiba Laboratory
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WATANABE Yasuyuki
Optoelectronic Industry and Technology Development Association, Advanced Organic Device Project, Chi
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KUDO Kazuhiro
Optoelectronic Industry and Technology Development Association, Advanced Organic Device Project, Chi
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Kudo Kazuhiro
Graduate School Of Engineering Chiba University
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Yamauchi Hiroshi
Faculty Of Engineering Ehime University
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Tanaka Kuniaki
Department Of Electronics And Mechanical Engineering Chiba University
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PU Fanghua
Chiba University
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YAMAUCHI Hiroshi
Chiba University
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Pu Fanghua
Graduate School Of Engineering Chiba University
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Tanaka K
Department Of Material Chemistry Graduate School Of Engineering Kyoto University
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MATSUBARA Ryousuke
Department of Electrical and Electronic Engineering, Graduate School of Engineering, Chiba Universit
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SAKAI Masatoshi
Chiba University
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IECHI Hiroyuki
Optoelectronic Industry and Technology Develepment Association, Advanced Organic Device Project, Chi
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Kikuchi Koudai
Faculty Of Engineering Chiba University
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Matsubara Ryousuke
Department Of Electrical And Electronic Engineering Graduate School Of Engineering Chiba University
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中村 雅一
千葉大学大学院工学研究科
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KIKUCHI Kodai
Chiba University
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KUDO Kazuhiro
Faculty of Engineering, Chiba University
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Kudo Kazuhiro
Faculty Of Engineering Chiba University
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HIRASHIMA Naoki
Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University
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GOTO Naoyuki
Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University
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YAMAUCHI Hiroshi
Graduate School of Engineering, Chiba University
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WATANABE Yasuyuki
Chiba University
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Fukuda Masaharu
Department Of Electronic And Mechanical Engineering Faculty Chiba University
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YAMAUCHI Hiroshi
Department of Public Health, Kitasato University, School of Allied Health Sciences
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Goto Naoyuki
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
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SAKUMA Hirotaka
Department of Electronics and Mechanical Engineering, Chiba University
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MAEDA Shun-ichi
Department of Electronics and Mechanical Engineering, Faculty of Engineering, Chiba University
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TANAKA Kuniaki
Chiba University
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Kikuchi Koudai
Faculty of Engineering, Chiba University
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IECHI Hiroyuki
Technology R&D Center, Ricoh Co. Ltd.
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TOMII Hiroshi
Department of Electrical and Electronic Engineering, Graduate School of Engineering, Chiba Universit
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OHASHI Noboru
Chiba University
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MURAISHI Norio
Chiba University
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IECHI Hiroyuki
Advanced Technology R&D Center, Research and Development Group, Ricoh Co. Ltd
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Hirashima Naoki
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
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IECHI Hiroyuki
Ricoh Co. Ltd, Environmental Technology R&D Center
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Sakuma Hirotaka
Department Of Electronics And Mechanical Engineering Chiba University
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Tomii Hiroshi
Department Of Electrical And Electronic Engineering Graduate School Of Engineering Chiba University
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Maeda Shun-ichi
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
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Tanaka Kuniaki
Department Of Biological Science Faculty Of Agriculture Shizuoka University
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Iechi Hiroyuki
Advanced Technology R&d Center Ricoh Co. Ltd.
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Yamauchi Hiroshi
Department Of Chemistry Faculty Of Science Kanazawa University
著作論文
- Evaluation of Carrier Mobility Models for Organic Semiconductor Device Simulations
- Characterization of Organic Static Induction Transistors with Nano-Gap Gate Fabricated by Electron Beam Lithography
- Control of P3HT-FET Characteristics by Post-Treatments
- Fabrication of vertical organic light emitting transistor using thin-film ZnO
- Fabrication of Nano-gate Structure Organic Static Induction Transistor using Electron Beam Lithography
- Fabrication of Organic Transistors Using BEDT-TTF and (BEDT-TTF)(TCNQ) CT-Complex Films(Characterization and Abilities of Organic Electronic Devices)(Recent Progress in Organic Molecular Electronics)
- Electrical Properties of Tetrakis(alkylthio)tetrathiafulvalene Thin Film
- Local Area Characterization of Evaporated TTF-TCNQ Complex Films with Scanning Tunneling Spectroscopy(Special Issue on Recent Progress in Organic Molecular Electronics)
- Electrical Characterization of Hole Transport Materials Using In-situ Field Effect Measurement(Special Issue on Recent Progress in Organic Molecular Electronics)
- Investigation of organic static induction transistor gate electrodes (有機エレクトロニクス)
- Characterization of Zinc Oxide and Pentacene Thin Film Transistors for CMOS Inverters
- Potential Fluctuation within a Crystalline Domain in Pentacene Thin Film Transistors and its Origin
- Lateral Carrier Transport in Pentacene Polycrystalline Films : Hole Transport Barrier and Effective Mass in Crystals
- Organic Inverters Using Pentacene Organic Static Induction Transistors(Organic Molecular Devices,Towards the Realization of Organic Molecular Electronics)
- Fabrication and Device Simulation of Single Nano-Scale Organic Static Induction Transistors(Organic Molecular Devices,Towards the Realization of Organic Molecular Electronics)
- Logic circuits with pentacene and ZnO transistors
- Organic Static Induction Transistors Based on Pentacene Thin Films with Various Source Electrodes
- Characteristics of organic static induction transistors and inverters(Organic molecular devices)
- Characteristics of organic static induction transistors and inverters
- Improvement of on/off ratio of pentacene static induction transistor with ultra-thin CuPc layer
- VERTICAL TYPE ORGANIC LIGHT EMITTING TRANSISTOR USING THIN-FILM ZnO
- CMOS Circuits Based on a Stacked Structure Using Silicone-Resin as Dielectric Layers