Intrinsic device-to-device variation in graphene field-effect transistors on a Si/SiO2 substrate as a platform for discriminative gas sensing

Alexey Lipatov; Alexey S. Varezhnikov; Martin Augustin; Michael Brüns; Martin Sommer; Victor V. Sysoev; Andrei Kolmakov; Alexander Sinitskii

doi:10.1063/1.4861183

Intrinsic device-to-device variation in graphene field-effect transistors on a Si/SiO2 substrate as a platform for discriminative gas sensing

Alexey Lipatov(University of Nebraska–Lincoln), Alexey S. Varezhnikov(Yuri Gagarin State Technical University of Saratov), Martin Augustin(Karlsruhe Institute of Technology), Michael Brüns(Karlsruhe Institute of Technology), Martin Sommer(Karlsruhe Institute of Technology), Victor V. Sysoev(Yuri Gagarin State Technical University of Saratov), Andrei Kolmakov(Southern Illinois University Carbondale), Alexander Sinitskii(University of Nebraska–Lincoln)

Applied Physics Letters

January 6, 2014

10.1063/1.4861183

Cited by 37

Abstract

Arrays of nearly identical graphene devices on Si/SiO2 exhibit a substantial device-to-device variation, even in case of a high-quality chemical vapor deposition (CVD) or mechanically exfoliated graphene. We propose that such device-to-device variation could provide a platform for highly selective multisensor electronic olfactory systems. We fabricated a multielectrode array of CVD graphene devices on a Si/SiO2 substrate and demonstrated that the diversity of these devices is sufficient to reliably discriminate different short-chain alcohols: methanol, ethanol, and isopropanol. The diversity of graphene devices on Si/SiO2 could possibly be used to construct similar multisensor systems trained to recognize other analytes as well.

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