Fluid transport at the nanoscale is ubiquitous in nature. However, rigorous study of fluid flow
and structure in artificial nanopores only emerged relatively recently. Termed nanofluidics …

Membranes containing nanoporous materials (such as zeolites, metal–organic materials
and 2D materials such as graphene derivatives) may allow more efficient separation of gas …

Chemical vapor deposition (CVD) is extensively used to produce large-area two-
dimensional (2D) materials. Current research is aimed at understanding mechanisms …

Porous graphene and other atomically thin 2D materials are regarded as highly promising
membrane materials for high‐performance gas separations due to their atomic thickness …

Thin-film composite (TFC) membranes with superior separation properties for H 2/CO 2, CO
2/N 2, and CO 2/CH 4 are of great interest for CO 2 capture. As the selective layer of the …

Porous graphene films are attractive as a gas separation membrane given that the selective
layer can be just one atom thick, allowing high-flux separation. A favorable aspect of porous …

Recent research on piezoelectrically driven self-charging supercapacitor power cells
(SCSPCs) aims to increase their self-charging performance and understand the charge …

Porous graphene (PG) nanosheets have become one of the superstars in the graphene
material family due to their diverse pore structures and unique properties. Their most …

Porous carbons are multipurpose materials with substantial industrial applications
characterized by their large surface areas and porosities. They have immense potential for …

Oxidation of graphitic materials has been studied for more than a century to synthesize
materials such as graphene oxide, nanoporous graphene, and to cut or unzip carbon …