| Literature DB >> 33565310 |
Zhaowu Tang1, Chunsen Liu1,2, Xiaohe Huang1, Senfeng Zeng1, Liwei Liu1, Jiayi Li1, Yu-Gang Jiang2, David Wei Zhang1, Peng Zhou1.
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 μA·μm/μm (VDS = 1 V) with a current on/off ratio of 108, which shows potential for low-power and high-performance electronics applications.Entities:
Keywords: Dirac-source; MoS2; gate-all-around; graphene; large drive current; steep-slope
Year: 2021 PMID: 33565310 DOI: 10.1021/acs.nanolett.0c04657
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189