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|2012 ||Kozak, Darby, Anderson, Will, Grevett, Matthew and Trau, Matt (2012) Modeling Elastic Pore Sensors for Quantitative Single Particle Sizing. The Journal of Physical Chemistry C: Nanomaterials, Interfaces and Hard Matter, 116 15: 8554-8561.|
An empirically derived model of how the dimensions of a size-tunable elastic pore sensor change with applied membrane stretch is presented. Quantitative modeling of the conical pore dimensions, in conjugation with a simplified pore resistance model, enabled particle size and translocation velocity profiles to be calculated from the individual particle pulse events at any membrane stretch. Size analysis of a trimodal suspension, composed of monodisperse 220, 330, and 410 nm particles, gave rise to 3 distinguishable particle peaks with coefficient of variances below 8.2% and average size values within 2.5% of single modal dynamic light scattering measurements. Particle translocation velocity profiles, over the approximate 12 žm pore sensing zone, showed that particles entering through the small pore opening accelerated to velocities approaching 5000 to 6000 žm/s. They then rapidly decelerated due to the pore geometry affects on the forces driving particle translocation being the electric field strength and fluid flow.
|Mr Matthew Grevett, Mr Will Anderson, Dr Darby Kozak, Professor Matt Trau|
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