Interfacial thermal resistance is the primary impediment to heat flow in materials and devices
as characteristic lengths become comparable to the mean‐free paths of the energy carriers …

Thermal conductivity and interfacial thermal conductance play crucial roles in the design of
engineering systems where temperature and thermal stress are of concerns. To date, a …

Measuring thermal properties of materials is not only of fundamental importance in
understanding the transport processes of energy carriers (electrons and phonons in solids) …

Understanding thermal transport across metal/semiconductor interfaces is crucial for the
heat dissipation of electronics. The dominant heat carriers in non-metals, phonons, are …

The emergence of wide and ultrawide bandgap semiconductors has revolutionized the
advancement of next-generation power, radio frequency, and opto-electronics, paving the …

This review introduces relevant nanoscale thermal transport processes that impact thermal
abatement in power electronics applications. Specifically, we highlight the importance of …

Fundamental research and development of ultra-wide bandgap (UWBG) semiconductor
devices are under way to realize next-generation power conversion and wireless …

Various factors affect the interfacial thermal resistance (ITR) between two materials, making
ITR prediction a high-dimensional mathematical problem. Machine learning is a cost …

Thermal boundary resistance (TBR) is a key property for the thermal management of high
power micro-and opto-electronic devices and for the development of high efficiency thermal …

The thermal conductivity of n-and p-type doped gallium nitride (GaN) epilayers having
thicknesses of 3–4 μm was investigated using time domain thermoreflectance. Despite …