High-performance radio frequency transistors based on diameter-separated semiconducting carbon nanotubes

Yu Cao; Yuchi Che; Jung Woo T. Seo; Hui Gui; Mark C. Hersam; Chongwu Zhou

doi:10.1063/1.4953074

High-performance radio frequency transistors based on diameter-separated semiconducting carbon nanotubes

Yu Cao, Yuchi Che, Jung Woo T. Seo, Hui Gui, Mark C. Hersam, Chongwu Zhou^*

^*Corresponding author for this work

Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

In this paper, we report the high-performance radio-frequency transistors based on the single-walled semiconducting carbon nanotubes with a refined average diameter of ∼1.6 nm. These diameter-separated carbon nanotube transistors show excellent transconductance of 55 μS/μm and desirable drain current saturation with an output resistance of ∼100 KΩ μm. An exceptional radio-frequency performance is also achieved with current gain and power gain cut-off frequencies of 23 GHz and 20 GHz (extrinsic) and 65 GHz and 35 GHz (intrinsic), respectively. These radio-frequency metrics are among the highest reported for the carbon nanotube thin-film transistors. This study provides demonstration of radio frequency transistors based on carbon nanotubes with tailored diameter distributions, which will guide the future application of carbon nanotubes in radio-frequency electronics.

Original language	English (US)
Article number	233105
Journal	Applied Physics Letters
Volume	108
Issue number	23
DOIs	https://doi.org/10.1063/1.4953074
State	Published - Jun 6 2016

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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abstract = "In this paper, we report the high-performance radio-frequency transistors based on the single-walled semiconducting carbon nanotubes with a refined average diameter of ∼1.6 nm. These diameter-separated carbon nanotube transistors show excellent transconductance of 55 μS/μm and desirable drain current saturation with an output resistance of ∼100 KΩ μm. An exceptional radio-frequency performance is also achieved with current gain and power gain cut-off frequencies of 23 GHz and 20 GHz (extrinsic) and 65 GHz and 35 GHz (intrinsic), respectively. These radio-frequency metrics are among the highest reported for the carbon nanotube thin-film transistors. This study provides demonstration of radio frequency transistors based on carbon nanotubes with tailored diameter distributions, which will guide the future application of carbon nanotubes in radio-frequency electronics.",

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AU - Che, Yuchi

AU - Seo, Jung Woo T.

AU - Gui, Hui

AU - Hersam, Mark C.

AU - Zhou, Chongwu

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