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 …

Heat transfer across solid-liquid interface is attracting increasing attention due to its
importance in many chemical and biological applications. By using molecular dynamics …

Heat transfer between a silver nanoparticle and surrounding water has been studied using
molecular dynamics (MD) simulations. The thermal conductance (Kapitza conductance) at …

The control of thermal transport across solid/liquid interface has attracted great interests for
efficient thermal management in the integrated devices. Based on molecular dynamics …

The dependence of the heat transfer of a nanoscopic liquid channel residing at the solid–
liquid interface is traditionally ascribed to the temperature jump, interfacial thermal …

The interfacial thermal conductance (Kapitza conductance) between a TiO 2 nanoparticle
and water is investigated using transient non-equilibrium molecular dynamics. It is found that …

The development of micro/nanofluidic techniques has recently revived interest in dynamic
shear flow at liquid–solid interfaces. When the nature of the liquid–solid boundaries was …

We study the role of underlying substrates on interfacial heat transfer within supported
graphene nanochannels. Due to graphene's translucency, the underlying substrate, apart …

The solid-liquid interface between molten salt and solid oxides is ubiquitous in the molten
salt nanocomposite with enhanced heat storage and transfer properties for concentrating …

The transfer of heat from a plasmonic nanoparticle to its water environment has numerous
applications in the fields of solar energy conversion and photothermal therapies. Here, we …