全卷对卷凹印基于碳纳米管的柔性薄膜晶体管背板在100米的聚乙二甲酸乙酯(PET)网

Proceedings of the 5th Electronics System-integration Technology Conference (ESTC) Pub Date : 2014-11-24 DOI:10.1109/ESTC.2014.6962824

Wookyu Lee, Hyunmo Koo, Junfeng Sun, Yunchang Choi, Gyoujin Cho

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引用次数: 4

摘要

采用R2R凹版双印刷单元，覆盖印刷配准精度为±20 μm，在150m PET卷材上制作了20 × 20 TFTs背板。基于该概念，对全印刷TFT背板的结果进行了表征，以提取制造类似传感器片的墙纸的可扩展性。在该凹印系统中，采用纳米银导电油墨、BaTiO3介电油墨和单壁碳纳米管半导体油墨在100 m的PET卷材上印刷20 × 20 TFT背板。考虑到打印可靠性和电学性能，优化了tft的流变性能。分析了20 × 20印刷TFT背板的迁移率、跨导、阈值电压和通断电流比，以提取参数来定义实际应用的可扩展性因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fully roll-to-roll gravure printed carbon nanotube based flexible thin film transistor backplane on 100 m of poly(ethyleneterephtalate) (PET) web

R2R gravure with two printing units with the overlay printing registration accuracy of ±20 μm is introduced to fabricate 20 × 20 TFTs backplane on 150 m of PET web. The resultants of fully printed TFT backplanes were characterized based on the concept to extract the scalability for manufacturing wall paper like sensor sheets. In this gravure system, silver nanoparticle based conductive ink, BaTiO3 based dielectric ink and single walled carbon nanotube based semiconducting ink were used for printing 20 × 20 TFT backplanes on 100 m of PET web. Rheological properties were optimized with the consideration of printing reliability and electrical properties of resulting TFTs. Mobility, transconductance, threshold voltage, and on-off current ratio of 20 × 20 printed TFT backplanes were analyzed for extracting the parameters to define the scalability factors for practical applications.

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Proceedings of the 5th Electronics System-integration Technology Conference (ESTC)

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