Simulation analysis of nanopore performance in single-nanoparticle detection
Y Zhang, G Liu, MQ Li, J Luo… - 10th IEEE International …, 2015 - ieeexplore.ieee.org
10th IEEE International Conference on Nano/Micro Engineered and …, 2015•ieeexplore.ieee.org
Single-nanoparticle detection with cylindrical and pyramidal-shaped nanopores was
systematically studied using FEM (Finite Element Modeling) method simulations and
terminal currents were obtained. The effects of pore size, length and the ratio of particle and
pore diameter on the blocked current were discussed. Based on the obtained results, an
optimal geometric dimension of nanopore for single-nanoparticle detection is suggested.
systematically studied using FEM (Finite Element Modeling) method simulations and
terminal currents were obtained. The effects of pore size, length and the ratio of particle and
pore diameter on the blocked current were discussed. Based on the obtained results, an
optimal geometric dimension of nanopore for single-nanoparticle detection is suggested.
Single-nanoparticle detection with cylindrical and pyramidal-shaped nanopores was systematically studied using FEM (Finite Element Modeling) method simulations and terminal currents were obtained. The effects of pore size, length and the ratio of particle and pore diameter on the blocked current were discussed. Based on the obtained results, an optimal geometric dimension of nanopore for single-nanoparticle detection is suggested.
ieeexplore.ieee.org
Showing the best result for this search. See all results