Electrical characterization of few-layer MoS2-based field-effect transistors with Ti/Au electrodes is performed in the vacuum chamber of a scanning electron microscope in order to study the effects of electron-beam irradiation on the transport properties of the device. A negative threshold voltage shift and a carrier mobility enhancement are observed and explained in terms of positive charges trapped in the SiO2 gate oxide, during the irradiation. The transistor channel current is increased up to 3 orders of magnitudes after the exposure to an irradiation dose of 100 e-/nm2. Finally, a complete field emission characterization of the MoS2 flake, achieving emission stability for several hours and a minimum turn-on field of â?20 V/?m with a field enhancement factor of about 500 at an anode-cathode distance of â1.5 ?m, demonstrates the suitability of few-layer MoS2 as a two-dimensional emitting surface for cold-cathode applications
Effect of Electron Irradiation on the Transport and Field Emission Properties of Few-Layer MoS2 Field-Effect Transistors
Giubileo F;Urban F;Luongo G;
2019
Abstract
Electrical characterization of few-layer MoS2-based field-effect transistors with Ti/Au electrodes is performed in the vacuum chamber of a scanning electron microscope in order to study the effects of electron-beam irradiation on the transport properties of the device. A negative threshold voltage shift and a carrier mobility enhancement are observed and explained in terms of positive charges trapped in the SiO2 gate oxide, during the irradiation. The transistor channel current is increased up to 3 orders of magnitudes after the exposure to an irradiation dose of 100 e-/nm2. Finally, a complete field emission characterization of the MoS2 flake, achieving emission stability for several hours and a minimum turn-on field of â?20 V/?m with a field enhancement factor of about 500 at an anode-cathode distance of â1.5 ?m, demonstrates the suitability of few-layer MoS2 as a two-dimensional emitting surface for cold-cathode applicationsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.