Biomimetic and bio‐inspired membranes draw great attention and generate extensive efforts
to solve environmental, health, and energy issues. In this field, track‐etched membranes …

The electrokinetic behaviors, including ionic current rectification (ICR), selectivity, and
electroosmotic flow (EOF) of a nanopore play important role in applications such as nano …

Controlling ions transport across the membrane at different pH environments is essential for
the physiological process and artificial systems. Many efforts have been devoted to pH …

When the channel size approaches the thickness of the charged layer (typically,∼ 10–100
nm), the resulting molecular and non‐equilibrium effects are markedly different from those …

In a multiscale modeling approach, we present computer simulation results for a rectifying
bipolar nanopore at two modeling levels. In an all-atom model, we use explicit water to …

In the framework of a multiscale modeling approach, we present a systematic study of a
bipolar rectifying nanopore using a continuum and a particle simulation method. The …

The exceeding of the heavy metal ions concentration in human body to a certain critical level
can lead to serious diseases. Since this critical level is usually of trace value, developing an …

A novel and simple design is introduced to construct bichannel nanofluid diodes by
combining two poly (ethylene terephthalate)(PET) films with columnar nanochannel arrays …

Ion current rectification (ICR) in a fluidic unipolar nanopore consisting of a charged zone and
one or two neutral zones has been investigated. The effect of length and location of surface …

The scaling behaviour for the rectification of bipolar nanopores is studied using the Nernst-
Planck equation coupled to the Local Equilibrium Monte Carlo method. The bipolar …