A Steep-Slope MoS2/Graphene Dirac-Source Field-Effect Transistor with a Large Drive Current
NANO LETTERS(2021)
Abstract
In the continuous transistor feature size scaling down, the scaling of the supply voltage is stagnant because of the subthreshold swing (SS) limit. A transistor with a new mechanism is needed to break through the thermionic limit of SS and hold the large drive current at the same time. Here, by adopting the recently proposed Dirac-source field-effect transistor (DSFET) technology, we experimentally demonstrate a MoS2/graphene (1.8 nm/0.3 nm) DSFET for the first time, and a steep SS of 37.9 mV/dec at room temperature with nearly free hysteresis is observed. Besides, by bringing in the structure of gate-all-around (GAA), the MoS2/graphene DSFET exhibits a steeper SS of 33.5 mV/dec and a 40% increased normalized drive current up to 52.7 mu A.mu m/(V-DS = 1 V) with a current on/off ratio of 10(8), which shows potential for low-power and high-performance electronics applications.
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Key words
MoS2,graphene,Dirac-source,gate-all-around,steep-slope,large drive current
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