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 …

Recently, graphene has been extensively researched in fundamental science and
engineering fields and has been developed for various electronic applications in emerging …

Efficient waste heat dissipation has become increasingly challenging as transistor size has
decreased to nanometers. As governed by universal Umklapp phonon scattering, the …

Nanofluids have been receiving great attention in recent years due to their potential usage,
not only as an enhanced thermophysical heat transfer fluid but also because of their great …

Nanofluids are liquid suspensions of hard nanometer-sized particles suspended in a base
fluid. The suspension of small solid particles in energy transmission fluids enhances their …

Almost 15 years have gone ever since the discovery of graphene as a single atom layer.
Numerous papers have been published to demonstrate its high electron mobility, excellent …

Graphene shows a great potential for high‐performance thermally conductive composite
applications because of its extremely high thermal conductivity. However, the graphene …

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 …

Following the emergence of many novel two-dimensional (2D) materials beyond graphene,
interest has grown in exploring implications for fundamental physics and practical …

Polymer-based thermal conductive composites (PTCs) with good thermal and mechanical
properties are highly appreciated in the thermal management of modern electronic devices …