IEEE Journal of the Electron Devices Society (Jan 2022)

Optimum Functionalization of Si Nanowire FET for Electrical Detection of DNA Hybridization

  • R. Midahuen,
  • B. Previtali,
  • C. Fontelaye,
  • G. Nonglaton,
  • V. Stambouli,
  • S. Barraud

DOI
https://doi.org/10.1109/JEDS.2022.3166683
Journal volume & issue
Vol. 10
pp. 575 – 583

Abstract

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In this work, we demonstrate a wafer-scale fabrication of biologically sensitive Si nanowire FET for pH sensing and electrical detection of deoxyribonucleic acid (DNA) hybridization. Based on conventional “top-down” CMOS compatible technology, our bioFETs explore a wide range of design (nanowires (NW), nanoribbons (NR), and honeycomb (HC) structures) with opening access scaled down to only 120 nm. After device fabrication, IDS-VBG transfer and IDS-VDS output characteristics show a conventional n-type FET behavior with an ION/IOFF value higher than 105, as well as an increase of threshold voltage as the NW width is reduced. Then, using a capacitive coupling in our dually-gated Si bioFETs, the pH sensitivity is enhanced with a pH response up to 600 mV/pH. Finally, we successfully detected an increase of threshold voltage of n-type silicon nanowires (SiNWs) due to hybridized target DNA molecules.

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