Interfacial thermal resistance (ITR) is the main obstacle for heat flows from one material to
another. Understanding ITR becomes essential for the removal of redundant heat from fast …

The urgent need for ultrahigh thermally conductive materials to keep up with the rapid
development of the electronics industry has led to the exploration of hexagonal boron nitride …

Significant progress has been made in the past two decades about the micro/nanoscale
heat conduction. Many computational methods have been developed to accommodate the …

Composite materials and especially polymer composites are widely used in daily life and
different industries due to their vastly different properties and design flexibility. It is known …

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 …

Over the past few decades, significant progress has been made in micro-and nanoscale
heat transfer. Numerous computational methods have been developed to quantitatively …

Low thermal conductance across interface is often the limiting factor in managing heat in
many advanced device applications. The most commonly used approach to enhance the …

Understanding phonon transport across interfaces serves as a major tool to advance a
diverse spectrum of fundamental and applied research. Unlike bulk materials, where the …

Abstract Two-dimensional (2D) materials, such as graphene, phosphorene, and transition
metal dichalcogenides (eg, MoS 2 and WS 2), have attracted a great deal of attention …

Although extensive experimental and theoretical works have been conducted to understand
the ballistic and diffusive phonon transport in nanomaterials recently, direct observation of …