The diversity of thermal transport properties in carbon nanomaterials enables them to be
used in different thermal fields such as heat dissipation, thermal management, and …

Heterostructures based on two-dimensional (2D) materials have attracted intense attention
in recent decades due to their unusual and tunable physics/chemical properties, which can …

Combining both vertical and in-plane two-dimensional (2D) heterostructures opens up the
possibility to create an unprecedented architecture using 2D atomic layer building blocks …

To unravel the underlying causes of the opposite variation tendency in theoretical and
experimental thermal conductivity of copper/diamond composites as the increasing …

The combination of dissimilar materials to build heterostructures has opened up new
possibilities for the use of graphene in a variety of applications. Among these, the stacking of …

The combination of graphene (Gr) and graphene-like materials provides the possibility of
using two-dimensional (2D) atomic layer building blocks to create unprecedented …

Understanding and controlling heat transfer across interfaces has become an important
issue for the performance of micro-and nanoscale electronics, as well as achieving a high …

The transport properties of hybrid nanostructures formed by graphene and polyaniline (C3N)
are investigated using molecular dynamics simulations. We systematically explored various …

Although graphene-related nanocomposites have great potential for dissipating excess heat
to ensure that electronic devices have high efficiencies and long service lives, their practical …

In this work, we have studied the transfer of phonon energy in hybrid structure of pillared
graphene and boron nitride film. The obtained results showed that, due to the occurrence of …