A critical review of thermal boundary conductance across wide and ultrawide bandgap semiconductor interfaces
The emergence of wide and ultrawide bandgap semiconductors has revolutionized the
advancement of next-generation power, radio frequency, and opto-electronics, paving the …
advancement of next-generation power, radio frequency, and opto-electronics, paving the …
Unexpected high inelastic phonon transport across solid-solid interface: Modal nonequilibrium molecular dynamics simulations and Landauer analysis
As a crucial part in thermal management, interfacial thermal transport is still not well
understood. In this paper, we employ the newly developed modal nonequilibrium molecular …
understood. In this paper, we employ the newly developed modal nonequilibrium molecular …
Two-temperature nonequilibrium molecular dynamics simulation of thermal transport across metal-nonmetal interfaces
We have used a two-temperature nonequilibrium molecular dynamics method for predicting
interfacial thermal resistance across metal-nonmetal interfaces. This method is an extension …
interfacial thermal resistance across metal-nonmetal interfaces. This method is an extension …
Enhancing and tuning phonon transport at vibrationally mismatched solid-solid interfaces
TS English, JC Duda, JL Smoyer, DA Jordan… - Physical Review B …, 2012 - APS
The thermal conductance of interfaces plays a major role in defining the thermal properties
of nanostructured materials in which heat transfer is predominantly phonon mediated …
of nanostructured materials in which heat transfer is predominantly phonon mediated …
Effect of lattice mismatch on phonon transmission and interface thermal conductance across dissimilar material interfaces
When phonons transport across a material interface, they experience reflection,
transmission, and mode conversion, which results in a local temperature jump at the …
transmission, and mode conversion, which results in a local temperature jump at the …
Phonon transport at interfaces: Determining the correct modes of vibration
For many decades, phonon transport at interfaces has been interpreted in terms of phonons
impinging on an interface and subsequently transmitting a certain fraction of their energy …
impinging on an interface and subsequently transmitting a certain fraction of their energy …
Controlling thermal conductance through quantum dot roughening at interfaces
We examine the fundamental phonon mechanisms affecting the interfacial thermal
conductance across a single layer of quantum dots (QDs) on a planar substrate. We …
conductance across a single layer of quantum dots (QDs) on a planar substrate. We …
Pressure dependence of Kapitza resistance at gold/water and silicon/water interfaces
We conducted non-equilibrium molecular dynamics simulations to investigate Kapitza length
at solid/liquid interfaces under the effects of bulk liquid pressures. Gold and silicon were …
at solid/liquid interfaces under the effects of bulk liquid pressures. Gold and silicon were …
Heat transfer mechanism across few-layer graphene by molecular dynamics
We use nonequilibrium molecular dynamics to study heat transfer across structures
consisting of a few layers of graphene sandwiched between silicon crystals. We find that …
consisting of a few layers of graphene sandwiched between silicon crystals. We find that …
Relationship of thermal boundary conductance to structure from an analytical model plus molecular dynamics simulations
Thermal boundary resistance dominates the overall resistance of nanosystems. This effect
can be utilized to improve the figure of merit of thermoelectric materials. It is also a concern …
can be utilized to improve the figure of merit of thermoelectric materials. It is also a concern …