C. English, G. Shine, V. Dorgan, K. Saraswat, E. Pop
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Improving contact resistance in MoS2 field effect transistors
MoS2 is a material of interest for two-dimensional (2D) field effect transistors (FETs) [1-3], however contact resistance (Rc) remains a key limiting factor. Here we present a systematic study of contact resistance to MoS2 using various metals with different deposition conditions, compared to detailed simulations. We find that decreasing the metal deposition pressure improves the metal-MoS2 interface and brings Rc for Au contacts to <;1 kΩ-μm, which is lower than previous reports with Ni, Sc, or Au [1,4]. Comparison to simulations suggest that while the contact resistivity is reasonably good (ρc ≈ 5·10-7 Ω·cm2), the lateral access resistance limits Rc in MoS2 FETs. This study is crucial for scalability of MoS2 devices, also suggesting methods to further improve Rc.
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