AIP Advances (Nov 2016)

Electrical trapping mechanism of single-microparticles in a pore sensor

  • Akihide Arima,
  • Makusu Tsutsui,
  • Yuhui He,
  • Sou Ryuzaki,
  • Masateru Taniguchi

DOI
https://doi.org/10.1063/1.4967214
Journal volume & issue
Vol. 6, no. 11
pp. 115004 – 115004-8

Abstract

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Nanopore sensing via resistive pulse technique are utilized as a potent tool to characterize physical and chemical property of single –molecules and –particles. In this article, we studied the influence of particle trajectory to the ionic conductance through a pore. We performed the optical/electrical simultaneous sensing of electrophoretic capture dynamics of single-particles at a pore using a microchannel/nanopore system. We detected ionic current drops synchronous to a fluorescently dyed particle being electrophoretically drawn and become immobilized at a pore in the optical imaging. We also identified anomalous trapping events wherein particles were captured at nanoscale pin-holes formed unintentionally in a SiN membrane that gave rise to relatively small current drops. This method is expected to be a useful platform for testing novel nanopore sensor design wherein current behaves in unpredictable manner.