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7 October 2014 High-performance organic transistors for printed circuits
J. Takeya
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Proceedings Volume 9185, Organic Field-Effect Transistors XIII; and Organic Semiconductors in Sensors and Bioelectronics VII; 91850I (2014) https://doi.org/10.1117/12.2067505
Event: SPIE Organic Photonics + Electronics, 2014, San Diego, California, United States
Abstract
This presentation focuses on recent development of key technologies for printed LSIs which can provide future low-cost platforms for RFID tags, AD converters, data processors, and sensing circuitries. Such prospect bears increasing reality because of recent research innovations in the field of material chemistry, charge transport physics, and solution processes of printable organic semiconductors. Achieving band transport in state-of-the-art printable organic semiconductors, carrier mobility is elevated above 15 cm2/Vs, so that reasonable speed in moderately integrated logic circuits can be available. With excellent chemical and thermal stability for such compounds, we are developing simple integrated devices based on CMOS using p-type and n-type printed organic FETs. Particularly important are new processing technologies for continuous growth of inch-size organic single-crystalline semiconductor “wafers” from solution and for lithographical patterning of semiconductors and metal electrodes. Successful rectification and identification are demonstrated at 13.56 MHz with printed organic CMOS circuits for the first time.
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J. Takeya "High-performance organic transistors for printed circuits", Proc. SPIE 9185, Organic Field-Effect Transistors XIII; and Organic Semiconductors in Sensors and Bioelectronics VII, 91850I (7 October 2014); https://doi.org/10.1117/12.2067505
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KEYWORDS
Organic semiconductors
Transistors
Crystals
Semiconductors
Field effect transistors
Molecules
Electrodes
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