Xuliang Han, D. Janzen, J. Vaillancourt, Xuejun Lu
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A high-speed thin-film transistor printed on flexible substrate using an electronic-grade carbon nanotube aqeous solution
This paper describes a high-speed thin-film transistor (TFT) printed on a regular transparency film. The carrier transport layer of this TFT is a high-density ultrapure carbon nanotube (CNT) thin film formed at room temperature by dispensing a tiny droplet of an electronic-grade CNT aqueous solution that does not contain any surfactant. This CNT-TFT exhibited a high modulation speed of 312 MHz. The unique printing compatible process demonstrated herein would enable mass production of large-area electronic circuits on virtually any desired flexible substrate at low cost and high throughput.
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