Electrical transport properties of black phosphorus based field-effect transistor with Au/Co/MgO tunneling contacts

Black phosphorus (BP) has recently emerged as a promising two-dimensional direct bandgap semiconducting material. Here, we report the fabrication and the electrical transport measurements of the black phosphorus based field-effect transistor with the Au/Co/MgO as drain and source tunneling contacts....

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Veröffentlicht in:	Journal of applied physics 2017-10, Vol.122 (16)
Hauptverfasser:	Liang, Shiheng, Yang, Huaiwen, Djeffal, Abdelhak, Tao, Bingshan, Mc-Murtry, Stefan, Mangin, Stéphane, Lu, Yuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied physics Cobalt Condensed Matter Contact potentials Electric contacts Electric potential Electronics Engineering Sciences Field effect transistors Gold Magnesium oxide Multilayers Phosphorus Physics Semiconductor devices Spintronics Transistors Transport properties
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container_title	Journal of applied physics
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creator	Liang, Shiheng Yang, Huaiwen Djeffal, Abdelhak Tao, Bingshan Mc-Murtry, Stefan Mangin, Stéphane Lu, Yuan
description	Black phosphorus (BP) has recently emerged as a promising two-dimensional direct bandgap semiconducting material. Here, we report the fabrication and the electrical transport measurements of the black phosphorus based field-effect transistor with the Au/Co/MgO as drain and source tunneling contacts. By modulating the back-gate voltage, the multilayer black phosphorus channel exhibits ambipolar characteristics (both n-type and p-type) and the conduction behavior can be switched from hole dominated to electron dominated transport region. In the hole dominated region, we have measured a minimum of Schottky barrier height of 37 meV for Au/Co/MgO contact on BP. Moreover, the transistor ON/OFF (I on/I off) ratio is obtained as large as 107 at 20 K and 105 at 300 K. A systematic study of the temperature and the back-gate voltage dependent conduction properties has been performed to understand the modulation of band structure and the ambipolar behavior. The demonstration of high ON/OFF ratio and low Schottky barrier height by using Au/Co/MgO tunneling contacts reveals a promising potential for spintronics applications with multilayer black phosphorus field-effect transistor.
doi_str_mv	10.1063/1.5000524
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subjects	Applied physics Cobalt Condensed Matter Contact potentials Electric contacts Electric potential Electronics Engineering Sciences Field effect transistors Gold Magnesium oxide Multilayers Phosphorus Physics Semiconductor devices Spintronics Transistors Transport properties
title	Electrical transport properties of black phosphorus based field-effect transistor with Au/Co/MgO tunneling contacts
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