Статья

Exfoliated multilayer MoTe2 field-effect transistors

Sara FathipourUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USANan MaUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USAWan Sik HwangKorea Aerospace University 2 Department of Materials Engineering, , Gyeonggi 412791, South KoreaVladimir ProtasenkoUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USASuresh VishwanathUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USAHuili Grace XingUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USAH. Q. XuUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USAD. JenaUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USAJoerg AppenzellerPurdue University 3 Birck Nanotechnology Center, , West Lafayette, Indiana 47907, USAAlan SeabaughUniversity of Notre Dame 1 Department of Electrical Engineering, , Notre Dame, Indiana 46556, USA

2014en

ABI

Аннотация

The properties of multilayer exfoliated MoTe2 field-effect transistors (FETs) on SiO2 were investigated for channel thicknesses from 6 to 44 monolayers (MLs). All transistors showed p-type conductivity at zero back-gate bias. For channel thicknesses of 8 ML or less, the transistors exhibited ambipolar characteristics. ON/OFF current ratio was greatest, 1 × 105, for the transistor with the thinnest channel, 6 ML. Devices showed a clear photoresponse to wavelengths between 510 and 1080 nm at room temperature. Temperature-dependent current-voltage measurements were performed on a FET with 30 layers of MoTe2. When the channel is turned-on and p-type, the temperature dependence is barrier-limited by the Au/Ti/MoTe2 contact with a hole activation energy of 0.13 eV. A long channel transistor model with Schottky barrier contacts is shown to be consistent with the common-source characteristics.

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Идентификаторы

DOI: 10.1063/1.4901527

Цитирования и источники

Цитирований: 2Использованных источников: 0

Показатели — AkademScholar