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期刊论文
Performance Limits of the Self‐Aligned Nanowire Top‐Gated MoS2 Transistors
Adv. Funct. Mater. ,2016,27(19):1602250 | 2016年08月17日 | https://doi.org/10.1002/adfm.201602250
In order to realize the promising potential of MoS2 as the alternative channel material, it is essential to achieve high‐performance top‐gated MoS2 field‐effect transistors (FETs), especially since the back‐gated counterparts cannot control the device individually. Although uniform high‐k dielectric films, such as HfO2, can be obtained through the introduction of artificial nucleation sites on the MoS2 channel to fabricate top‐gated FETs, this would inevitably degrade their channel/dielectric interface quality, induce significant charged impurity scattering and lower carrier mobility. In this work, MoS2 FETs are fabricated using a self‐aligned nanowire top‐gate, which can effectively reduce the charged impurity scattering on the surface of MoS2. Specifically, the fabricated short‐channel devices exhibit impressive electrical performances, such as the high on/off current ratio, low interface trap density, and near‐ideal subthreshold slope at room temperature. In addition, the short channel effect is systematically analyzed, which indicates that the phonon scattering can be the dominant scattering mechanism in the devices when the amount of charged impurities is effectively reduced with the self‐aligned nanowire gate. All these provide an enhanced fabrication scheme to attain top‐gated short‐channel devices with the optimized interface and potentially to explore their corresponding performance limits.
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