Investigation of the Influence of Nanoparticle & Nanofluidic Conduit Geometry on Ionic Transport, M.Sc. Thesis Sharif University of Technology ; Taghipoor, Mojtaba (Supervisor)
Abstract
Resistive pulse sensing (RPS) has proved to be a viable method for detection and characterization of micro and nano particles. This method works based on ionic current variation inside nanopores. Modern fabrication methods have introduced different nanopore geometries for resistive pulse sensors therefore studing the effects of geometry on sensing performance of nanaopores is important. Numerical simulation has been used to study a wide variation of nanopore’s geometry configurations and study the physics behind this phenomena. Based on the results, numerical simulation could be used as a fast and easy tool for size determination for nanopore. To compare the sensing performance of different...
Cataloging briefInvestigation of the Influence of Nanoparticle & Nanofluidic Conduit Geometry on Ionic Transport, M.Sc. Thesis Sharif University of Technology ; Taghipoor, Mojtaba (Supervisor)
Abstract
Resistive pulse sensing (RPS) has proved to be a viable method for detection and characterization of micro and nano particles. This method works based on ionic current variation inside nanopores. Modern fabrication methods have introduced different nanopore geometries for resistive pulse sensors therefore studing the effects of geometry on sensing performance of nanaopores is important. Numerical simulation has been used to study a wide variation of nanopore’s geometry configurations and study the physics behind this phenomena. Based on the results, numerical simulation could be used as a fast and easy tool for size determination for nanopore. To compare the sensing performance of different...
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