Publication: Pressure–Voltage Trap for DNA near a Solid-State Nanopore
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Date
2014
Published Version
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Publisher
American Chemical Society (ACS)
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Citation
Hoogerheide, David P., Bo Lu, and Jene A. Golovchenko. 2014. “Pressure–Voltage Trap for DNA Near a Solid-State Nanopore.” ACS Nano 8 (7) (July 22): 7384–7391. doi:10.1021/nn5025829.
Research Data
Abstract
We report the formation of a tunable single DNA molecule trap near a solid-state nanopore in an electrolyte solution under conditions where an electric force and a pressure induced viscous flow force on the molecule are nearly balanced. Trapped molecules can enter the pore multiple times before escaping the trap by passing through the pore or by diffusing away. Statistical analysis of many individually trapped molecules yields a detailed picture of the fluctuation phenomena involved, which are successfully modeled by a one-dimensional first passage approach.
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Keywords
solid-state nanopores, pressure gradient, DNA single-molecule detection, DNA trapping, DNA translocation attempts
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