A back-to-back diode model applied to van der Waals Schottky diodes

Author:

Cloninger Jeffrey A,Harris Raine,Haley Kristine L,Sterbentz Randy M,Taniguchi Takashi,Watanabe KenjiORCID,Island Joshua OORCID

Abstract

Abstract The use of metal and semimetal van der Waals contacts for 2D semiconducting devices has led to remarkable device optimizations. In comparison with conventional thin-film metal deposition, a reduction in Fermi level pinning at the contact interface for van der Waals contacts results in, generally, lower contact resistances and higher mobilities. Van der Waals contacts also lead to Schottky barriers that follow the Schottky–Mott rule, allowing barrier estimates on material properties alone. In this study, we present a double Schottky barrier model and apply it to a barrier tunable all van der Waals transistor. In a molybdenum disulfide (MoS2) transistor with graphene and few-layer graphene contacts, we find that the model can be applied to extract Schottky barrier heights that agree with the Schottky–Mott rule from simple two-terminal current–voltage measurements at room temperature. Furthermore, we show tunability of the Schottky barrier in-situ using a regional contact gate. Our results highlight the utility of a basic back-to-back diode model in extracting device characteristics in all van der Waals transistors.

Funder

Division of Materials Research

Army Research Office

JSPS KAKENHI

Publisher

IOP Publishing

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