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Transport time-independent determination of the surface charge of individual nanoparticles using the resistive pulse sensing

机译：使用电阻脉冲传感，独立于运输时间确定单个纳米颗粒的表面电荷

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We explore the potential application of resistive pulse sensing technology for transport time-independent determining the size and surface charge density of individual nanoparticles simultaneously. The translocation of both uncharged and charged nanoparticles through a nanopore was modeled using the finite element simulation. A positive peak appears when a charged, but not uncharged, nanoparticle exits the nanopore. The magnitude of positive peak depends on the surface charge density and size of the nanoparticle. The formation of the positive peak is presumably attributed to the local ionic polarization induced by the combination of the charged surface and the externally applied electrical field.

机译：我们探索电阻式脉冲传感技术在独立于运输时间确定单个纳米粒子的大小和表面电荷密度的同时的潜在应用。使用有限元模拟对不带电和带电的纳米粒子通过纳米孔的迁移进行建模。当带电但不带电的纳米粒子离开纳米孔时，出现一个正峰。正峰的大小取决于表面电荷密度和纳米颗粒的大小。正峰的形成大概归因于由带电表面和外部施加的电场的组合引起的局部离子极化。

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《IEEE International Conference on Nanotechnology》|2015年|821-824|共4页
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Che-Yen Lee; Chihchen Chen;
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Coulter counter; nanoparticle; positive peak; resistive pulse sensing; zeta potential;

机译：库尔特计数器;纳米粒子;正峰值;电阻脉冲感应;ζ电位;

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Transport time-independent determination of the surface charge of individual nanoparticles using the resistive pulse sensing

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