PtS e 2 ultrathin films are used as the channel of back-gated field-effect transistors that are investigated at different temperatures and under super-continuous white laser irradiation. The temperature-dependent behavior confirms the semiconducting nature of multilayer PtS e 2, with p-type conduction, a hole field-effect mobility up to 40 c m 2 V - 1 s - 1, and significant gate modulation. Electrical conduction measured along different directions shows isotropic transport. A reduction of PtS e 2 channel conductance is observed under exposure to light. Such a negative photoconductivity is explained by a photogating effect caused by photo-charge accumulation in SiO2 and at the Si / SiO 2 interface.
Isotropic conduction and negative photoconduction in ultrathin PtSe2 films
Urban, FrancescaFirst
;Di Bartolomeo, Antonio
2020-01-01
Abstract
PtS e 2 ultrathin films are used as the channel of back-gated field-effect transistors that are investigated at different temperatures and under super-continuous white laser irradiation. The temperature-dependent behavior confirms the semiconducting nature of multilayer PtS e 2, with p-type conduction, a hole field-effect mobility up to 40 c m 2 V - 1 s - 1, and significant gate modulation. Electrical conduction measured along different directions shows isotropic transport. A reduction of PtS e 2 channel conductance is observed under exposure to light. Such a negative photoconductivity is explained by a photogating effect caused by photo-charge accumulation in SiO2 and at the Si / SiO 2 interface.
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