Sensing and Bio-Sensing Research (Jun 2015)

Real-time electrical detection of the formation and destruction of lipid bilayers on silicon nanowire devices

  • Elissa H. Williams,
  • Jong-Yoon Ha,
  • Melanie Juba,
  • Barney Bishop,
  • Sergiy Krylyuk,
  • Abhishek Motayed,
  • Mulpuri V. Rao,
  • John A. Schreifels,
  • Albert V. Davydov

DOI
https://doi.org/10.1016/j.sbsr.2015.04.005
Journal volume & issue
Vol. 4, no. C
pp. 103 – 108

Abstract

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Silicon nanowire (Si NW) two-terminal devices were fabricated to electrically probe the real-time formation and destruction of lipid bilayers. A liposome solution, containing the same ratio of zwitterionic/anionic lipids that are present in an Escherichia coli cell membrane, was applied to the NW devices. Lipid bilayer formation on the Si NWs was detected in-situ by observing electrical resistance changes complemented by confocal fluorescence microscopy imaging. The formation of lipid bilayers resulted in a 1% to 2% decrease in device current, consistent with the negative gating effect of the lipids on the NW surface. The devices demonstrated a ≈ 1 min electrical response time to lipid encapsulation. Removal of the lipid layer was achieved by exposing the devices to a detergent, which resulted in NW conductance returning to its original value with a ≈ 2 min recovery time. The lipid bilayer coated Si NWs demonstrate a novel platform to enable in-situ electrical probing of bacterial cell membrane mechanisms, interactions, and reactions.

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