Add to ORKGIon diffusion induced current, Nanochannel, Concentration gradientIn this article, a theoretical model that takes into consideration both the diffusion and electric osmosis fluxes to estimate the diffusion current through a nanochannel is proposed. Equivalent impedance of a nanochannel is modeled as a series connection of finite RC circuits. The impedances of the electrical double layer and buffer solution in each infinitesimal RC circuit are represented by a capacitor and a resister, respectively. Due to the electrical double layer effect, the diffusion induced current in the proposed model is position dependent. Computer simulations and experiments using a nanoporous anodic aluminum oxide (AAO) thin film as the filter to separate electrol...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Direct evidence is provided for the transition from surface conduction (SC) to electro-osmotic flow ...
The diffusion of binary aqueous electrolytes through nanopores with dielectric as well as conductive...
In this article, a theoretical model that takes into consideration both the diffusion and electric o...
In charged nanopores, ionic diffusion current reflects the ionic selectivity and ionic permeability ...
Diffusion is one of the most fundamental properties of ionic transport in solutions. Here, we presen...
AbstractIon conduction through microscopic channels is of central importance in both biology and nan...
Ion current rectification (ICR) in negatively charged conical nanopores is shown to be controlled by...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
The nanofluidic diode, as one of the emerging nanofluidic logic devices, has been used in many field...
Finite element numerical simulations are used to examine the effects of various parameters on synthe...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Direct evidence is provided for the transition from surface conduction (SC) to electro-osmotic flow ...
The diffusion of binary aqueous electrolytes through nanopores with dielectric as well as conductive...
In this article, a theoretical model that takes into consideration both the diffusion and electric o...
In charged nanopores, ionic diffusion current reflects the ionic selectivity and ionic permeability ...
Diffusion is one of the most fundamental properties of ionic transport in solutions. Here, we presen...
AbstractIon conduction through microscopic channels is of central importance in both biology and nan...
Ion current rectification (ICR) in negatively charged conical nanopores is shown to be controlled by...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
The nanofluidic diode, as one of the emerging nanofluidic logic devices, has been used in many field...
Finite element numerical simulations are used to examine the effects of various parameters on synthe...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Diffusioosmotic flows of electrolyte solutions in slit nanochannels with homogeneous surface charges...
Direct evidence is provided for the transition from surface conduction (SC) to electro-osmotic flow ...
The diffusion of binary aqueous electrolytes through nanopores with dielectric as well as conductive...