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Conductometric Sensing with Individual InAs Nanowires

Authors :: M. Donarelli
Rishi Maiti
Francesco Rossella
Mirko Rocci
Valentina Zannier
Camilla Baratto
Stefano Roddaro
Fabio Beltram
Valeria Demontis
Lucia Sorba
Demontis, V.
Rocci, M.
Donarelli, M.
Maiti, R.
Zannier, V.
Beltram, F.
Sorba, L.
Roddaro, S.
Rossella, F.
Baratto, C.
Source :: Sensors (Basel, Switzerland), Sensors, Vol 19, Iss 13, p 2994 (2019), Sensors, Volume 19, Issue 13, Sensors (Basel) 19 (2019): 2994–2994. doi:10.3390/s19132994, info:cnr-pdr/source/autori:Demontis, Valeria; Rocci, Mirko; Donarelli, Maurizio; Maiti, Rishi; Zannier, Valentina; Beltram, Fabio; Sorba, Lucia; Roddaro, Stefano; Rossella, Francesco; Baratto, Camilla/titolo:Conductometric Sensing with Individual InAs Nanowires/doi:10.3390%2Fs19132994/rivista:Sensors (Basel)/anno:2019/pagina_da:2994/pagina_a:2994/intervallo_pagine:2994–2994/volume:19
Publication Year :: 2019
Abstract: In this work, we isolate individual wurtzite InAs nanowires and fabricate electrical contacts at both ends, exploiting the single nanostructures as building blocks to realize two different architectures of conductometric sensors: (a) the nanowire is drop-casted onto&mdash<br />supported by&mdash<br />a SiO2/Si substrate, and (b) the nanowire is suspended at approximately 250 nm from the substrate. We test the source-drain current upon changes in the concentration of humidity, ethanol, and NO2, using synthetic air as a gas carrier, moving a step forward towards mimicking operational environmental conditions. The supported architecture shows higher response in the mid humidity range (50% relative humidity), with shorter response and recovery times and lower detection limit with respect to the suspended nanowire. These experimental pieces of evidence indicate a minor role of the InAs/SiO2 contact area<br />hence, there is no need for suspended nanostructures to improve the sensing performance. Moreover, the sensing capability of single InAs nanowires for detection of NO2 and ethanol in the ambient atmosphere is reported and discussed.