Analyzing the Carrier Mobility in Transition-Metal Dichalcogenide MoS2 Field-Effect Transistors
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TLDR
In this paper, a theoretical model that quantitatively captures the scaling of mobility with temperature, carrier density, and thickness of transition metal dichalcogenides (TMDCs) is introduced.Abstract:
Transition-metal dichalcogenides (TMDCs) are an important class of two-dimensional (2D) layered materials for electronic and optoelectronic applications, due to their ultimate body thickness, sizable and tunable bandgap, and decent theoretical room-temperature mobility. So far, however, all TMDCs show much lower mobility experimentally because of the collective effects by foreign impurities, which has become one of the most important limitations for their device applications. Here, taking MoS2 as an example, the key factors that bring down the mobility in TMDC transistors, including phonons, charged impurities, defects, and charge traps, are reviewed. A theoretical model that quantitatively captures the scaling of mobility with temperature, carrier density, and thickness is introduced. By fitting the available mobility data from literature over the past few years, one obtains the density of impurities and traps for a wide range of transistor structures. It shows that interface engineering can effectively reduce the impurities, leading to improved device performances. For few-layer TMDCs, the lopsided carrier distribution is analytically modeled to elucidate the experimental increase of mobility with the number of layers. From our analysis, it is clear that the charge transport in TMDC samples is a very complex problem that must be handled carefully.read more
Citations
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References
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Journal ArticleDOI
Band-Like Transport in High Mobility Unencapsulated Single-Layer MoS2 Transistors
Deep Jariwala,Vinod K. Sangwan,Dattatray J. Late,James E. Johns,Vinayak P. Dravid,Tobin J. Marks,Lincoln J. Lauhon,Mark C. Hersam +7 more
TL;DR: In this paper, the authors report high mobility (>60 cm2/Vs at room temperature) field-effect transistors that employ unencapsulated single-layer MoS2 on oxidized Si wafers with a low level of extrinsic contamination.
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Electronic transport properties of transition metal dichalcogenide field-effect devices: surface and interface effects
TL;DR: The state-of-the-art of TMD-based FETs are reviewed and the current understanding of interface and surface effects that play a major role in these systems are summarized.
Journal ArticleDOI
Chemical vapour deposition of group-VIB metal dichalcogenide monolayers: engineered substrates from amorphous to single crystalline
TL;DR: This tutorial review focuses on introducing the more recent advances in the CVD growth of MX2 monolayers via the sulphurisation/decomposition of pre-deposited metal-based precursors, or the one-step reaction and deposition of gaseous metal and chalcogen feedstocks.
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TL;DR: This review investigates the experimental efforts in interfacing 2D layers with 3D materials and analyzes the properties of the heterojunctions formed between them, calling for careful reconsideration of the physical models describing the junction behavior.
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Charge trapping instabilities in amorphous silicon‐silicon nitride thin‐film transistors
TL;DR: The most important instability mechanism in amorphous silicon-silicon nitride thin-film transistors is charge trapping in the silicon nitride layer, which leads to a threshold voltage shift (ΔVT).