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Dynamic and Asymmetrical Ion Concentration Polarization in Dual Nanopipettes.

Yingjie ZhaoLan LinRujia LiuYun LiuYue WangDengchao Wang
Published in: Analytical chemistry (2024)
Dual nanopipettes with two channels have been receiving great attention due to the convenient experimental setup and multiple measuring channels in sensing applications at nanoscale, while the involved dynamic and asymmetrical ion transport processes have not been fully elucidated. In this paper, both experimental and simulation methods are used to investigate the dynamic mass transport processes inside dual nanopipettes with two well-separated channels. The results present that the ion transport resistance through the two channels ( R 12 ) is always the add-up of the individual ones ( R 13 + R 23 ) with respect to the bulk solutions, at various ionic strengths and scan rates. A constant zero-current potential is obtained when loading an asymmetrical electrolyte concentration in the two channels, and the zero-potential current displays a good linear relationship with the bulk concentration outside the pipet. Besides revealing the dynamic and asymmetrical concentration polarization in the dual nanopipettes, these results would also further promote the better usage of dual nanopipettes in electrochemical sensing and imaging applications.
Keyphrases
  • ionic liquid
  • computed tomography
  • high resolution
  • magnetic resonance imaging
  • risk assessment
  • mass spectrometry
  • magnetic resonance
  • single molecule
  • liquid chromatography