Presented through this work is an investigation of junctionfree gate-stacked (SiO2 + high-k) double gated vertical tunnel field-effect transistor (JF-GS-VTFET) with focus on its hydrogen (H2) sensing performance at room temperature (RT) for the first time. JF-GS-VTFET with vertically characterized channel length feature minimizes short channel effects (SCEs), elevates gate controllability over regular TFETs without the presence of any sharp doping gradient. A systematical study of the sensing performance is demonstrated through effective variations in Palladium (Pd) and Gold (Au) catalytic metal gate work functions corresponding to the concentration of hydrogen appearing at the gate metal surface. A concentration dependent thorough analysis has been illustrated in terms of energy band, potential, transfer and transient characteristics. Sensing capability of the device have been analyzed in terms of variations in detecting parameters such as transconductance (gm), off current, on current, threshold voltage and sub-threshold slope in presence of the target gas using SILVACO ATLAS TCAD. At 1.04 ppm H2 gas concentration, the optimally designed sensor exhibits high ION/IOFF ratios in the order of ~ππ ππ and ~ππ ππ , high gm sensing responses of 99.98% and 98.93%, high off current sensing responses of ~π. πππ Γ ππ π and ~1. ππ Γ ππ π , better sub-threshold swing sensing responses of ~0.71 and ~0.55, increased threshold voltage sensing responses of ~0.27 and ~0.25 for Pd and Au metal gates respectively at RT. Perceptible outcomes in terms of interface trap charge density have also been presented to recognize RT H2 sensing.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citationsβcitations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.