Abstract Two-dimensional (2D) materials offer opportunities to explore both fundamental
science and applications in the limit of atomic thickness. Beyond the prototypical case of …

Rational design of 2D materials is crucial for the realization of their profound implications in
energy and environmental fields. The past decade has witnessed significant developments …

Epitaxial growth of atomically thin two-dimensional crystals such as transition metal
dichalcogenides remains challenging, especially for producing large-size transition metal …

Over the past decade, research on atomically thin two-dimensional (2D) transition metal
dichalcogenides (TMDs) has expanded rapidly due to their unique properties such as high …

Janus fabrics are often used for oil/water separation, fog-harvesting, and moisture-wicking
clothing due to their unidirectional liquid transport (ULT) ability. However, Janus fabrics are …

Solitary waves are unique in nonlinear systems, but their formation and propagation in the
nonlinear fluid-structure interactions have yet to be further explored. As a typical nonlinear …

Many far-reaching applications of graphene require a deep understanding of the
interactions between graphene and other surfaces, including the wetting behaviour of …

The liable interfacial delamination of carbon fiber composites is a long-lasting problem that
restricts its widely application. One promising route is to hybridize fiber with nano-particles …

Thermally conductive polymer packaging material is of great significance for the thermal
management of electronics. Inorganic thermally conductive fillers have been demonstrated …

In the recent years, two-dimensional (2D) transition metal dichalcogenides (TMDs) have
received worldwide attention because of their peculiar and fascinating electronic properties …