Pseudo molecular doping and ambipolarity tuning in si junctionless nanowire transistors using gaseous nitrogen dioxide
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Date
2024
Authors
Vardhan, Vaishali
Biswas, Subhajit
Ghosh, Sayantan
Tsetseris, Leonidas
Ghoshal, Tandra
Hellebust, Stig
Georgiev, Yordan M.
Holmes, Justin D.
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley
Published Version
Abstract
Ambipolar transistors facilitate concurrent transport of both positive (holes) and negative (electrons) charge carriers in the semiconducting channel. Effective manipulation of conduction symmetry and electrical characteristics in ambipolar silicon junctionless nanowire transistors (Si-JNTs) is demonstrated using gaseous nitrogen dioxide (NO2). This involves a dual reaction in both p- and n-type conduction, resulting in a significant decrease in the current in n-conduction mode and an increase in the p-conduction mode upon NO2 exposure. Various Si-JNT parameters, including “on”-current (Ion), threshold voltage (Vth), and mobility (µ) exhibit dynamic changes in both the p- and n-conduction modes of the ambipolar transistor upon interaction with NO2 (concentration between 2.5 – 50 ppm). Additionally, NO2 exposure to Si-JNTs with different surface morphologies, that is, unpassivated Si-JNTs with a native oxide or with a thermally grown oxide (10 nm), show distinct influences on Ion, Vth, and µ, highlighting the effect of surface oxide on NO2-mediated charge transfer. Interaction with NO2 alters the carrier concentration in the JNT channel, with NO2 acting as an electron acceptor and inducing holes, as supported by Density Functional Theory (DFT) calculations, providing a pathway for charge transfer and “pseudo” molecular doping in ambipolar Si-JNTs.
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Keywords
Silicon nanowire , Junction less transistor , Ambipolar device , Pseudo molecular doping , Density functional theory , Nitrogen dioxide
Citation
Vardhan, V., Biswas, S., Ghosh, S., Tsetseris, L., Ghoshal, T., Hellebust, S., Georgiev, Y.M. and Holmes, J.D. (2024) ‘Pseudo molecular doping and ambipolarity tuning in si junctionless nanowire transistors using gaseous nitrogen dioxide’, Advanced Electronic Materials, p. 2400338 (32pp). https://doi.org/10.1002/aelm.202400338