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Low-voltage high-performance flexible digital and analog circuits based on ultrahigh-purity semiconducting carbon nanotubes.


ABSTRACT: Carbon nanotube (CNT) thin-film transistor (TFT) is a promising candidate for flexible and wearable electronics. However, it usually suffers from low semiconducting tube purity, low device yield, and the mismatch between p- and n-type TFTs. Here, we report low-voltage and high-performance digital and analog CNT TFT circuits based on high-yield (19.9%) and ultrahigh purity (99.997%) polymer-sorted semiconducting CNTs. Using high-uniformity deposition and pseudo-CMOS design, we demonstrated CNT TFTs with good uniformity and high performance at low operation voltage of 3?V. We tested forty-four 2-µm channel 5-stage ring oscillators on the same flexible substrate (1,056 TFTs). All worked as expected with gate delays of 42.7?±?13.1?ns. With these high-performance TFTs, we demonstrated 8-stage shift registers running at 50?kHz and the first tunable-gain amplifier with 1,000 gain at 20?kHz. These results show great potentials of using solution-processed CNT TFTs for large-scale flexible electronics.

SUBMITTER: Lei T 

PROVIDER: S-EPMC6517392 | biostudies-literature | 2019 May

REPOSITORIES: biostudies-literature

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Low-voltage high-performance flexible digital and analog circuits based on ultrahigh-purity semiconducting carbon nanotubes.

Lei Ting T   Shao Lei-Lai LL   Zheng Yu-Qing YQ   Pitner Gregory G   Fang Guanhua G   Zhu Chenxin C   Li Sicheng S   Beausoleil Ray R   Wong H-S Philip HP   Huang Tsung-Ching TC   Cheng Kwang-Ting KT   Bao Zhenan Z  

Nature communications 20190514 1


Carbon nanotube (CNT) thin-film transistor (TFT) is a promising candidate for flexible and wearable electronics. However, it usually suffers from low semiconducting tube purity, low device yield, and the mismatch between p- and n-type TFTs. Here, we report low-voltage and high-performance digital and analog CNT TFT circuits based on high-yield (19.9%) and ultrahigh purity (99.997%) polymer-sorted semiconducting CNTs. Using high-uniformity deposition and pseudo-CMOS design, we demonstrated CNT TF  ...[more]

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