固态纳米孔中的低频噪声。

Low-frequency noise in solid-state nanopores.

作者信息

Smeets R M M, Dekker N H, Dekker C

机构信息

Kavli Institute of Nanoscience, Delft University of Technology, Delft, The Netherlands.

出版信息

Nanotechnology. 2009 Mar 4;20(9):095501. doi: 10.1088/0957-4484/20/9/095501. Epub 2009 Feb 11.

DOI:10.1088/0957-4484/20/9/095501

PMID:19417488

Abstract

Low-frequency ionic current noise in solid-state nanopores imposes a limitation on the time resolution achieved in translocation experiments. Recently, this 1/f noise was described as obeying Hooge's phenomenological relation, where the noise scales inversely with the number of charge carriers present. Here, we consider an alternative model in which the low-frequency noise originates from surface charge fluctuations. We compare the models and show that Hooge's relation gives the best description for the low-frequency noise in solid-state nanopores over the entire salt regime from 10(-3) to 1.6 M KCl.

摘要

固态纳米孔中的低频离子电流噪声限制了转运实验所能达到的时间分辨率。最近，这种1/f噪声被描述为符合胡格的唯象关系，即噪声与存在的电荷载流子数量成反比。在这里，我们考虑一种替代模型，其中低频噪声源于表面电荷涨落。我们比较了这些模型，并表明在从10^(-3)到1.6 M KCl的整个盐浓度范围内，胡格关系对固态纳米孔中的低频噪声给出了最佳描述。

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固态纳米孔中的低频噪声。

Low-frequency noise in solid-state nanopores.

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