Thermal transport at the nanoscale level is attracting attention not only because of its
physically interesting features such as the peculiar behavior of phonons due to their …

Abstract Properties of phonons—quanta of the crystal lattice vibrations—in graphene have
recently attracted significant attention from the physics and engineering communities …

We review the thermal properties of graphene, few-layer graphene and graphene
nanoribbons, and discuss practical applications of graphene in thermal management and …

The behavior of classical and quantum many-particle systems out of equilibrium is among
the most prominent problems in modern statistical-mechanics. Besides its own interest for …

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 …

Phonons–quanta of crystal lattice vibrations–reveal themselves in all electrical, thermal, and
optical phenomena in materials. Nanostructures open exciting opportunities for tuning the …

Graphene-based materials have shown great potential in various fields across physics,
chemistry, biology, and electronics, due to their unique electronic properties, facile …

The influence of the structural detail and defects on the thermal and electronic transport
properties of graphene nanoribbons (GNRs) is explored by molecular dynamics and non …

We use equilibrium molecular dynamic simulations to compute thermal conductivity of
graphene nanoribbons with smooth and rough edges. We also study effects of hydrogen …

The thermal transport properties of hexagonal boron nitride nanoribbons (BNNRs) are
investigated. By calculating the phonon spectrum and thermal conductance, it is found that …