Subthreshold Current Suppression in ReS 2 Nanosheet-Based Field-Effect Transistors at High Temperatures.
Ofelia DuranteKimberly IntontiLoredana ViscardiSebastiano De StefanoEnver FaellaArun KumarAniello PelellaFrancesco RomeoFilippo GiubileoManal Safar G AlghamdiMohammed Ali S AlshehriMonica F CraciunSaverio RussoAntonio Di BartolomeoPublished in: ACS applied nano materials (2023)
Two-dimensional rhenium disulfide (ReS 2 ), a member of the transition-metal dichalcogenide family, has received significant attention due to its potential applications in field-effect transistors (FETs), photodetectors, and memories. In this work, we investigate the suppression of the subthreshold current during the forward voltage gate sweep, leading to an inversion of the hysteresis in the transfer characteristics of ReS 2 nanosheet-based FETs from clockwise to anticlockwise. We explore the impact of temperature, sweeping gate voltage, and pressure on this behavior. Notably, the suppression in current within the subthreshold region coincides with a peak in gate current, which increases beyond a specific temperature but remains unaffected by pressure. We attribute both the suppression in drain current and the presence of peak in gate current to the charge/discharge process of gate oxide traps by thermal-assisted tunnelling. The suppression of the subthreshold current at high temperatures not only reduces power consumption but also extends the operational temperature range of ReS 2 nanosheet-based FETs.