Printed Electronics: High Performance and Required Characteristics of Organic Semiconductors
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★ What is the material design that achieves high channel mobility? What are the challenges in printing methods? ★ We have covered the key points to listen to in printed electronics!
Lecturers Part 1: Associate Professor Takashi Sekiya, Graduate School of Engineering, The University of Tokyo Part 2: Professor Junichi Takeya, Advanced Electronic Devices Research Group, Institute of Industrial Science, Osaka University Part 3: Professor Shizushi Tokitoh, Deputy Director, Organic Electronics Research Center, Yamagata University, Doctor of Engineering Part 4: Professor Kazuo Takimiya, Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University Target Audience: Researchers and personnel interested in printed electronics and organic transistors Venue: Kawasaki City Industrial Promotion Hall, Conference Room 1 [Kanagawa, Kawasaki] Access: 7-minute walk from Kawasaki Station on JR or Keikyu Line Date and Time: October 31, 2011 (Monday) 11:00 AM - 5:30 PM (tentative) Capacity: 30 people - Please apply early as there may be a rush of applications. Participation Fee: [Early Bird Discount Price] 53,550 yen (including tax and text fees) for up to 2 participants from one company *Limited to Tech-Zone members who apply by October 17. Membership registration is free. *After October 17, the [Regular Price] will be 56,700 yen (including tax and text fees) for up to 2 participants from one company.
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**Lecture 2: Summary of the Presentation** This presentation introduces research on organic transistors that have significantly improved performance through the method of forming single-crystal organic semiconductors into thin films on substrates using a coating technique. This method allows for the application of low-cost processes such as printing technology, and it surpasses the performance of conventional polycrystalline-induced thin-film transistors and amorphous silicon transistors by 5 to 10 times, making it promising for applications in high-speed, low-cost active matrix devices. **Lecture 3: Summary of the Presentation** Organic EL displays using thin plastic films as substrates are expected to be the next generation of displays that are ultra-thin, ultra-lightweight, and exhibit excellent flexibility and robustness. Organic TFTs are gaining attention as thin-film transistors (TFTs) for the backplane, which is crucial for realizing these flexible displays. This presentation will introduce material development, device structure innovations, and examples of formation on plastic and display prototypes to achieve high-performance organic TFTs.
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Part 1: Physical Properties and Application Development of Organic Transistors Made with Printing Technology Lecturer: Takashi Sekiya, Graduate School of the University of Tokyo 0. Introduction - Ambient Electronics 1. Organic Transistors Made with Printing 2. Application of Printed Devices to Large-Area Electronics 3. Ultra-Flexible Organic Transistors 4. Stretchable Electronics 5. Future Prospects for "Flexible" and "Large-Area" Electronics Part 2: High-Functionality Technology for Organic Semiconductors via Coating Crystallization Method and Array Formation through Printing Lecturer: Junichi Takeya, Professor at Osaka University Part 3: Research and Development of Organic TFTs Aimed at Applications in Flexible Organic EL Displays Lecturer: Shizushi Tokitani, Organic Electronics Research Center, Yamagata University 2. Development of Materials for Organic TFTs 3. Improvement of Stability in Organic TFTs 4. Application to Flexible Displays 5. Future Prospects Part 4: Development and Design Guidelines for Organic Semiconductor Materials Enabling High-Speed Carrier Mobility Lecturer: Kazuo Takiya, Professor at Hiroshima University
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