The coupling of lattice dynamics and phonon transport methodologies with density
functional theory has become a powerful tool for calculating lattice thermal conductivity (κ) …

High temperature processes are widely used in a variety of existing and emerging industrial
and aerospace applications. The thermal properties of high‐temperature materials thus play …

Semiconductors with high thermal conductivity and electron-hole mobility are of great
importance for electronic and photonic devices as well as for fundamental studies. Among …

The high density of heat generated in power electronics and optoelectronic devices is a
critical bottleneck in their application. New materials with high thermal conductivity are …

Conventional theory predicts that ultrahigh lattice thermal conductivity can only occur in
crystals composed of strongly bonded light elements, and that it is limited by anharmonic …

For decades, the three-phonon scattering process has been considered to govern thermal
transport in solids, while the role of higher-order four-phonon scattering has been …

Lattice thermal conductivity κ L is one of the key parameters involved in the design of
microelectronics and energy-conversion devices. In determining the κ L, similar to the well …

Right after the first edition was published in 2007, I was invited to give seminars at a number
of universities in several countries. At that time, many people considered nanotechnology …

ABSTRACT Coupling of the Peierls-Boltzmann equation with density functional theory
paved the way for predictive thermal materials discovery and a variety of new physical …

The anisotropic basal-plane thermal conductivities of thin black phosphorus obtained from a
new four-probe measurement exhibit much higher peak values at low temperatures than …