Printed Electronics: High-Speed Printing and High Performance of Organic Semiconductors
S10630
★ How can we maintain the high performance of organic semiconductors in the printing process? ★ What can be done to ensure that performance is not compromised when formed through the printing process?
Lecturers Part 1: Professor Junichi Takeya, Advanced Electronic Devices Research Group, Institute of Industrial Science, Osaka University Part 2: Director Toshihide Kamada, Flexible Electronics Research Center, National Institute of Advanced Industrial Science and Technology Target Audience: Researchers involved in organic TFT and printed electronics Venue: Tekno Kawasaki B1F, Room 1 [Kanagawa, Kawasaki] 5-minute walk from JR Nambu Line "Musashi-Mizonokuchi Station" North Exit, and from Tokyu Den-en-toshi Line "Mizonokuchi Station" Date and Time: June 17, 2011 (Friday) 13:00-16:15 Capacity: 30 people *Registration will close once full. Please apply early. Participation Fee: 49,350 yen (including tax and text costs) for up to 2 participants from one company *New members who apply for the first time by June 3 will receive an early bird discount price of 44,100 yen. ◆ When applying for the early bird discount, please select "1 person (early discount)" or "2 people (early discount)" in the number registration. ◆ Point discounts are not applicable to the early bird discount price. Point discount services can only be applied when registering at the regular price.
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basic information
This paper introduces research on organic transistors that have significantly improved performance through a method of forming single-crystal organic semiconductors into thin films on substrates using a coating technique. Low-cost processes such as printing technology can be applied, and the performance surpasses that of conventional polycrystalline-induced thin-film transistors and amorphous silicon transistors by 5 to 10 times, making them promising for applications in high-speed, low-cost active matrix devices.
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Part 1: High-Performance Technology for Organic Semiconductors Using Coating Crystallization Method 1. Organic Electronics 1-2 Expectations for High Performance of Organic Electronics Devices 2. About Organic Transistors 2-1 Organic Semiconductor Materials 2-2 Principles of Organic Transistors 2-3 Various Organic Transistors and Their Performance 3. Organic Single Crystal Transistors 3-1 Development of Organic Single Crystal Transistors 3-2 The True Potential of Organic Semiconductors 3-3 Electronic Conduction Mechanism of Organic Transistors 3-4 Determining Factors of Organic Transistor Performance 4. Organic Single Crystal Thin Film Transistors by Coating Method 4-1 Organic Single Crystal Transistors Grown from Solution 4-2 Characteristics of Coating-Type Organic Single Crystal Transistors 4-3 Electronic Conduction Mechanism of Coating-Type Organic Single Crystal Transistors 5. Development of High-Speed, Low-Cost Organic Transistor Arrays by Printing Method 5-1 Array Formation of Coating-Type Organic Single Crystals by Printing Method 5-2 Towards Active Matrix Development [Q&A] Part 2: Enhancement of Printing Process Technology for Organic Semiconductors and Performance Evaluation/Measurement *Details will be announced on the website.
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