KeeChan Park scite author profile

For several years, graphene has been the focus of much attention due to its peculiar characteristics, and it is now considered to be a representative 2-dimensional (2D) material. Even though many research groups have studied on the graphene, its intrinsic nature of a zero band-gap, limits its use in practical applications, particularly in logic circuits. Recently, transition metal dichalcogenides (TMDs), which are another type of 2D material, have drawn attention due to the advantage of having a sizable band-gap and a high mobility. Here, we report on the design of a complementary inverter, one of the most basic logic elements, which is based on a MoS2 n-type transistor and a WSe2 p-type transistor. The advantages provided by the complementary metal-oxide-semiconductor (CMOS) configuration and the high-performance TMD channels allow us to fabricate a TMD complementary inverter that has a high-gain of 13.7. This work demonstrates the operation of the MoS2 n-FET and WSe2 p-FET on the same substrate, and the electrical performance of the CMOS inverter, which is based on a different driving current, is also measured.

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IGZO TFT gate driver circuit with large threshold voltage margin

Kim

Park

et al. 2018

Displays

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A poly-Si AMOLED display with high uniformity

Park

Jeon

Kim

et al. 2008

Solid-State Electronics

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Highly Stable AlInZnSnO and InZnO Double-Layer Oxide Thin-Film Transistors With Mobility Over 50 $\text{cm}^{2}/\text{V} \cdot \text{s}$ for High-Speed Operation

Yang

Choi

Cho

et al. 2018

IEEE Electron Device Lett.

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KeeChan Park

Bottom-Gate Gallium Indium Zinc Oxide Thin-Film Transistor Array for High-Resolution AMOLED Display

A high-performance complementary inverter based on transition metal dichalcogenide field-effect transistors

IGZO TFT gate driver circuit with large threshold voltage margin

A poly-Si AMOLED display with high uniformity

Highly Stable AlInZnSnO and InZnO Double-Layer Oxide Thin-Film Transistors With Mobility Over 50 $\text{cm}^{2}/\text{V} \cdot \text{s}$ for High-Speed Operation

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