Graphene is being increasingly used as an interesting transducer membrane in micro-and
nanoelectromechanical systems (MEMS and NEMS, respectively) due to its atomical …

Salinity gradient energy (SGE), known as blue energy is harvested from mixing seawater
with river water in a controlled way using ion exchange membranes (IEMs). Using 2D …

Generating electricity from salinity‐gradient waters with nanofluidic structures is a promising
approach for achieving zero‐emission energy goals and addressing escalating energy …

The urgent need for efficient water energy harvesting has led to the development of
triboelectric nanogenerators (TENGs). In this study, considering the droplet spreading …

Osmotic energy harvesting from salinity gradients shows great potential for sustainable
electricity generation, which can be fulfilled using two-dimensional ion-selective nanofluidic …

Nanofluidics is an interdisciplinary field of study that bridges hydrodynamics, statistical
physics, chemistry, materials science, biology, and other fields to investigate the transport of …

Ion transport through nanoporous two-dimensional (2D) membranes is predicted to be
tunable by controlling the charging status of the membranes' planar surfaces, the behavior of …

Membrane separation stands as an environmentally friendly, high permeance and
selectivity, low energy demand process that deserves scientific investigation and …

Inspired by the fine-tuned ionic transport across biological nanochannels, two-dimensional
atomically thin graphene nanopores are designed as micro-electromechanical system …