The mesoscale fiber–matrix interfacial transition zone (FM-ITZ) under induced curing
pressure plays a key role in the effectiveness of fiber reinforcement and the engineering …

Nanofluidics research has achieved a significant growth over the past few years. New
phenomena of nanoscaled fluid flows are being reported continuously, such as altered …

Nanoconfined fluids (NCFs), which are confined in nanospaces, exhibit distinctive
nanoscale effects, including surface effects, small-size effects, quantum effects, and others …

Abstract Two-dimensional (2D) material-based membrane separation has attracted
increasing attention due to its promising performance compared with traditional membranes …

Monolayer water can be formed under extreme confinement and will present distinctive
thermodynamic properties compared with bulk water. In this work, we perform molecular …

Water dissociation on TiO 2 surfaces has been known for decades and holds great potential
in various applications, many of which require a proper understanding of thermal transport …

Nanoscale thermal transport at solid–liquid interfaces plays an essential role in many
engineering fields. This work performs deep potential molecular dynamics (DPMD) …

In this study, we employ equilibrium molecular dynamics (EMD) simulation to explore the
viscosity of hydrogen molecules (H 2) when subjected to extreme confinement within a …

The accurate determination of fluid viscosity based on the microscopic information of
molecules is very crucial for the prediction of nanoscale flow. Despite the challenge of this …

Although the unexpectedly fast capillary flow of water (partial wetting) in graphene nanoslits
has been reported, the wicking dynamics of total wetting liquid in a nanocapillary have not …