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

Generating electricity based on the interaction between water and materials is a new green
energy harvesting technology. However, the performance based on streaming potential …

In accurately balancing membrane permeability and separation coefficient, effectively
preventing membrane collapse in separation process is the core to improve the efficiency of …

The proton exchange membrane (PEM) fuel cell is a device that demonstrates a significant
potential for environmental sustainability, since it efficiently converts chemical energy into …

Controlling the size of single-digit pores, such as those in graphene, with an Å resolution
has been challenging due to the limited understanding of pore evolution at the atomic scale …

The conventional fabrication of bulk van der Waals (vdW) materials requires a temperature
above 1,000° C to sinter from the corresponding particulates. Here we report the near-room …

When capturing CO 2 for combating global warming, water molecules are omnipresent and
can play a detrimental role in many carbon capture approaches. Particularly, water not only …

Transport of ions and water is essential for diverse physiological activities and industrial
applications. As the dimension approaches nano and even angstrom scale, ions and water …

Membranes based on a porous two-dimensional selective layer offer the potential to achieve
exceptional performance to improve energy efficiency and reduce the cost for carbon …

The exposure of graphene to O3 results in functionalization of its lattice with epoxy, even at
room temperature. This reaction is of fundamental interest for precise lattice patterning …