Title :
15-nm channel length MoS2 FETs with single- and double-gate structures
Author :
Nourbakhsh, A. ; Zubair, A. ; Huang, S. ; Ling, X. ; Dresselhaus, M.S. ; Kong, J. ; De Gendt, S. ; Palacios, T.
Author_Institution :
Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
We demonstrate single- and double-gated (SG & DG) field effect transistors (FETs) with a record source-drain length (LS/D) of 15 nm built on monolayer (tch~0.7 nm) and 4-layer (tch~3 nm) MoS2 channels using monolayer graphene as the Source/Drain contacts. The best devices, corresponding to DG 4-layer MoS2-FETs with LS/D=15 nm, had an Ion/Ioff in excess of 106 and a minimum subthreshold swing (SSmin.) of 90 mV/dec. at VDS=0.5 V. At LS/D=1 μm and VDS=0.5 V, SSmin.=66 mV/dec., which is the best SS reported in MoS2 FETs, indicating the high quality of the interface and the enhanced channel electrostatics.
Keywords :
electrical contacts; field effect transistors; graphene; molybdenum compounds; 4-layer MoS2 channels; DG 4-layer MoS2-FET; LS-D; MoS2; double-gated FET; enhanced channel electrostatics; monolayer MoS2 channels; monolayer graphene; single-gated field effect transistors; size 0.7 nm; size 15 nm; size 3 nm; source-drain contacts; source-drain length; subthreshold swing; voltage 0.5 V; Electrodes; Fabrication; Field effect transistors; Graphene; Logic gates; Plasmas; Silicon;
Conference_Titel :
VLSI Technology (VLSI Technology), 2015 Symposium on
DOI :
10.1109/VLSIT.2015.7223690
