Understanding and exploring the transport behaviors of ions and molecules in the nano and
sub-nano confinement has great meaning in the fields of nanofluidics and basic transport …

Ion, particle, and fluid transport in nanofluidic devices has received considerable attention
over the past two decades due to unique transport properties exhibited at the nanoscale. 1 …

We review recent progress on the theory of dynamics of polymer translocation through a
nanopore based on the iso-flux tension propagation (IFTP) theory. We investigate both pore …

Nanoscale electrophoresis allows for unique separations of single molecules, such as
DNA/RNA nucleobases, and thus has the potential to be used as single molecular sensors …

Polydimethylsiloxane (PDMS) is a popular silicon-based polymer with advanced
applications in microfluidics and nanocomposites. The slow dynamics of polymer chains in …

Confinement of single molecules within nanoscale environments is crucial in a range of
fields, including biomedicine, genomics, and biophysics. Here, we present a method that …

We develop a theory for polymer translocation driven by a time-dependent force through an
oscillating nanopore. To this end, we extend the iso-flux tension propagation theory …

Cellulose is a pervasive polymer, displaying hierarchical lengthscales and exceptional
strength and stiffness. Cellulose's complex organization, however, also hinders the detailed …

Much tremendous break through have been obtained in recent years for nanopore
sequencing to achieve the goal of $1000 genome. As a method of single molecule …

We study the driven translocation of a semiflexible polymer through an attractive extended
pore with a periodically oscillating width. Similar to its flexible counterpart, a stiff polymer …