Electrochemical impedance spectroscopy (EIS) is a powerful technique used for the analysis
of interfacial properties related to bio-recognition events occurring at the electrode surface …

Confined fluids and electrolyte solutions in nanopores exhibit rich and surprising physics
and chemistry that impact the mass transport and energy efficiency in many important …

Artificial ion channels with ion permeability and selectivity comparable to their biological
counterparts are highly desired for efficient separation, biosensing, and energy conversion …

Superwettability is a special case of the wetting phenomenon among liquids, gases, and
solids. The superhydrophobic/superhydrophilic effect discovered initially has undergone a …

Bio-markers, such as ions, small molecules, nucleic acids, peptides, proteins and cells,
participate in the construction of living organisms and play important roles in biological …

Efficient desalination of water continues to be a problem facing the society. Advances in
nanotechnology have led to the development of a variety of nanoporous membranes for …

Significant achievements have been made on the development of next‐generation filtration
and separation membranes using graphene materials, as graphene‐based membranes can …

Engineered wettability is a traditional, yet key issue in surface science and attracts
tremendous interest in solving large‐scale practical problems. Recently, different super …

Bioinspired smart asymmetric nanochannel membranes (BSANM) have been explored
extensively to achieve the delicate ionic transport functions comparable to those of living …

The transport of hydrated ions across nanochannels is central to biological systems and
membrane-based applications, yet little is known about their hydrated structure during …