Nitrogen dioxide detection with ambipolar silicon nanowire transistor sensors
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Date
2025-01-31
Authors
Vardhan, Vaishali
Biswas, Subhajit
Ghosh, Sayantan
Tsetseris, Leonidas
Hellebust, Stig
Echresh, Ahmad
Georgiev, Yordan M.
Holmes, Justin D.
Journal Title
Journal ISSN
Volume Title
Publisher
American Chemical Society
Published Version
Abstract
Si nanowire transistors are ideal for the sensitive detection of atmospheric species due to their enhanced sensitivity to changes in the electrostatic potential at the channel surface. In this study, we present unique ambipolar Si junctionless nanowire transistors (Si-JNTs) that incorporate both n- and p-type conduction within a single device. These transistors enable scalable detection of nitrogen dioxide (NO2), a critical atmospheric oxidative pollutant, across a broad concentration range, from high levels (25–50 ppm) to low levels (250 ppb–2 ppm). Acting as an electron acceptor, NO2 generates holes and functions as a pseudodopant for Si-JNTs, altering the conductance and other device parameters. Consequently, ambipolar Si-JNTs exhibit a dual response at room temperature, reacting on both p- and n-conduction channels when exposed to gaseous NO2, thereby offering a larger parameter space compared to a unipolar device. Key characteristics of the Si-JNTs, including on-current (Ion), threshold voltage (Vth) and mobility (μ), were observed to dynamically change on both the p- and n-channels when exposed to NO2. The p-conduction channel showed superior performance across all parameters when compared to the device’s n-channel. For example, within the NO2 concentration range of 250 ppb to 2 ppm, the p-channel achieved a responsivity of 37%, significantly surpassing the n-channel’s 12.5%. Additionally, the simultaneous evolution of multiple parameters in this dual response space enhances the selectivity of Si-JNTs toward NO2 and improves their ability to distinguish between different pollutant gases, such as NO2, ammonia, sulfur dioxide and methane.
Description
Keywords
Field effect transistor , Silicon junctionless nanowire transistor , Ambipolar device , Multivariate calibration , NO2 sensor
Citation
Vardhan, V., Biswas, S., Ghosh, S., Tsetseris, L., Hellebust, S., Echresh, A., Georgiev, Y. M. and Holmes, J. D. (2025) 'Nitrogen dioxide detection with ambipolar silicon nanowire transistor sensors', ACS Applied Materials & Interfaces, 17(6), pp. 9539–9553. https://doi.org/10.1021/acsami.4c18322