Graphene, because of its outstanding thermal and electrical conductivity, has been regarded
as one of the promising materials for heat dissipation and electromagnetic shielding, and …

Two-dimensional hexagonal boron nitride (h-BN) has appeared as a promising material in
diverse areas of applications, including as an excellent substrate for graphene devices …

Because of its impressive electrical, thermal, and mechanical properties, two-dimensional
silicon carbide (2D-SiC) has recently gained tremendous attention in the field of …

Structural manipulation at the nanoscale breaks the intrinsic correlations among different
energy carrier transport properties, achieving high thermoelectric performance. However …

Mechanical stability, which is featured by high tensile strength, is one of the most critical
concerns for the reliability of next-generation nanoelectromechanical systems (NEMS) …

Because of the rapid shrinking trend of integrated circuits, the performances of nanodevices
and nanomechanical systems are greatly affected by the joule heating and mechanical …

This work investigates the impact of cove edges in gallium nitride nanoribbons (GaNNRs) as
cove edges nanoribbons are energetically more stable and facilitates further tunability of …

Graphene based two-dimensional (2D) van der Waals (vdW) materials have attracted
enormous attention because of their extraordinary physical properties. In this study, we …

Recently, monolayer silicon germanide (SiGe), a newly explored buckled honeycomb
configuration of silicon and germanium, is predicted to be a promising nanomaterial for next …

Aiming to solve the heat dissipation problem of next generation energy-efficient
nanoelectronics, we have explored the thermal transport behavior of monolayer silicon …