Devices based on transition metal dichalcogenide nanotubes hold great potential for electronic and optoelectronic applications. Herein, the electrical transport and photoresponse characteristics of a back-gate device with a channel made of a single tungsten disulfide (WS2) nanotube are investigated as functions of electric stress, ambient pressure, and illumination. As a transistor, the device exhibits p-type conduction, which can be transformed into ambipolar conduction at a high drain-source voltage. Increasing ambient pressure enhances the p-type behaviour, while exposure to light has the opposite effect, enhancing n-type conduction. The ability to operate the device as either a p-type or n-type transistor makes it promising for complementary metal-oxide-semiconductor (CMOS) circuit applications. Light enhances the conductivity, allowing for further control and enabling the device to function as a photodetector with a photoresponsivity of about 50 mA/W and a broadband response in the visible range. The combination of voltage, pressure and light control paves the way for using the WS2 nanotube transistor as a multifunctional device.

Ambipolar conduction in gated tungsten disulphide nanotube

Pelella, Aniello
Writing – Original Draft Preparation
;
Camilli, Luca;Giubileo, Filippo;Passacantando, Maurizio;Intonti, Kimberly
Formal Analysis
;
Kumar, Arun
Formal Analysis
;
Di Bartolomeo, Antonio
Writing – Review & Editing
2025-01-01

Abstract

Devices based on transition metal dichalcogenide nanotubes hold great potential for electronic and optoelectronic applications. Herein, the electrical transport and photoresponse characteristics of a back-gate device with a channel made of a single tungsten disulfide (WS2) nanotube are investigated as functions of electric stress, ambient pressure, and illumination. As a transistor, the device exhibits p-type conduction, which can be transformed into ambipolar conduction at a high drain-source voltage. Increasing ambient pressure enhances the p-type behaviour, while exposure to light has the opposite effect, enhancing n-type conduction. The ability to operate the device as either a p-type or n-type transistor makes it promising for complementary metal-oxide-semiconductor (CMOS) circuit applications. Light enhances the conductivity, allowing for further control and enabling the device to function as a photodetector with a photoresponsivity of about 50 mA/W and a broadband response in the visible range. The combination of voltage, pressure and light control paves the way for using the WS2 nanotube transistor as a multifunctional device.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/4889684
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