Ambipolar operation of hybrid SiC-carbon nanotube based thin film transistors for logic circuits applications

B. Aïssa; M. Nedil; A. H. Esam; N. Tabet; D. Therriault; F. Rosei

doi:10.1063/1.4739939

Ambipolar operation of hybrid SiC-carbon nanotube based thin film transistors for logic circuits applications

B. Aïssa^*, M. Nedil, A. H. Esam, N. Tabet, D. Therriault, F. Rosei

^*Corresponding author for this work

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

10 Citations (Scopus)

Abstract

We report on the ambipolar operation of back-gated thin film field-effect transistors based on hybrid n-type-SiC/p-type-single-walled carbon nanotube networks made with a simple drop casting process. High-performances such an on/off ratio of 10 ⁵, on-conductance of 20 μS, and a subthreshold swing of less than 165 mV/decades were obtained. The devices are air-stable and maintained their ambipolar operation characteristics in ambient atmosphere for more than two months. Finally, these hybrid transistors were utilized to demonstrate advanced logic NOR-gates. This could be a fundamental step toward realizing stable operating nanoelectronic devices.

Original language	English
Article number	043121
Journal	Applied Physics Letters
Volume	101
Issue number	4
DOIs	https://doi.org/10.1063/1.4739939
Publication status	Published - 23 Jul 2012
Externally published	Yes

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title = "Ambipolar operation of hybrid SiC-carbon nanotube based thin film transistors for logic circuits applications",

abstract = "We report on the ambipolar operation of back-gated thin film field-effect transistors based on hybrid n-type-SiC/p-type-single-walled carbon nanotube networks made with a simple drop casting process. High-performances such an on/off ratio of 10 5, on-conductance of 20 μS, and a subthreshold swing of less than 165 mV/decades were obtained. The devices are air-stable and maintained their ambipolar operation characteristics in ambient atmosphere for more than two months. Finally, these hybrid transistors were utilized to demonstrate advanced logic NOR-gates. This could be a fundamental step toward realizing stable operating nanoelectronic devices.",

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AU - Nedil, M.

AU - Esam, A. H.

AU - Tabet, N.

AU - Therriault, D.

AU - Rosei, F.

PY - 2012/7/23

Y1 - 2012/7/23

N2 - We report on the ambipolar operation of back-gated thin film field-effect transistors based on hybrid n-type-SiC/p-type-single-walled carbon nanotube networks made with a simple drop casting process. High-performances such an on/off ratio of 10 5, on-conductance of 20 μS, and a subthreshold swing of less than 165 mV/decades were obtained. The devices are air-stable and maintained their ambipolar operation characteristics in ambient atmosphere for more than two months. Finally, these hybrid transistors were utilized to demonstrate advanced logic NOR-gates. This could be a fundamental step toward realizing stable operating nanoelectronic devices.

AB - We report on the ambipolar operation of back-gated thin film field-effect transistors based on hybrid n-type-SiC/p-type-single-walled carbon nanotube networks made with a simple drop casting process. High-performances such an on/off ratio of 10 5, on-conductance of 20 μS, and a subthreshold swing of less than 165 mV/decades were obtained. The devices are air-stable and maintained their ambipolar operation characteristics in ambient atmosphere for more than two months. Finally, these hybrid transistors were utilized to demonstrate advanced logic NOR-gates. This could be a fundamental step toward realizing stable operating nanoelectronic devices.

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Ambipolar operation of hybrid SiC-carbon nanotube based thin film transistors for logic circuits applications

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