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Literature DB >> 16277467

Nanofluidic diode and bipolar transistor.

Hirofumi Daiguji¹, Yukiko Oka, Katsuhiro Shirono.

Abstract

Theoretical modeling of ionic distribution and transport in a nanochannel containing a surface charge on its wall, 30 nm high and 5 microm long, suggests that ionic current can be controlled by locally modifying the surface charge density through a gate electrode, even if the electrical double layers are not overlapped. When the surface charge densities at the right and left halves of a channel are the same absolute value but of different signs, this could form the basis of a nanofluidic diode. When the surface charge density at the middle part of a channel is modified, this could form the basis of a nanofluidic bipolar transistor.

Year: 2005 PMID： 16277467 DOI： 10.1021/nl051646y

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

36 in total

Nanofluidic diode and bipolar transistor.

1. Field-effect reconfigurable nanofluidic ionic diodes.

2. Logic gates based on ion transistors.

3. Capillarity ion concentration polarization for spontaneous biomolecular preconcentration mechanism.

4. Molecular control of ionic conduction in polymer nanopores.

5. Reversible cobalt ion binding to imidazole-modified nanopipettes.

6. p-n Semiconductor membrane for electrically tunable ion current rectification and filtering.

7. Self-sealed vertical polymeric nanoporous-junctions for high-throughput nanofluidic applications.

8. Fabrication of nanofluidic diodes with polymer nanopores modified by atomic layer deposition.

9. Rectification of nanopores at surfaces.

10. Stabilization of ion concentration polarization using a heterogeneous nanoporous junction.