Emerging theory and phenomena in thermal conduction: A selective review
Recently, emerging phonon phenomena have been discovered and rapidly developed,
which have become an active hot research topic. In this review article, we present state-of …
which have become an active hot research topic. In this review article, we present state-of …
Intrinsically and extrinsically anisotropic heat transport in bulk materials and nanostructures: A review
The anisotropic heat conduction in solids is attractive for diverse applications such as
thermal management and thermal insulation. With highly anisotropic materials, the heat flow …
thermal management and thermal insulation. With highly anisotropic materials, the heat flow …
Surface treated ZnO whisker optimizing the comprehensive performance of the self-adaptive dielectrics
The application of self-adaptive dielectrics (SADs) is a promising approach to enhancing the
insulation performance as well as downsizing of most high voltage apparatus. Beside …
insulation performance as well as downsizing of most high voltage apparatus. Beside …
Phonon weak couplings model and its applications: A revisit to two-temperature non-equilibrium transport
The thermal management on low-dimensional materials requires a fundamental
understanding of phonon couplings, which dominates thermal transport. In this mini-review …
understanding of phonon couplings, which dominates thermal transport. In this mini-review …
Field-dependent nonlinear electrical response characteristics in polymer dielectrics with sodium alginate scaffold
D Zhang, C Bi, B Gou, J Zhou, A Zhong, B Lin… - … Composites and Hybrid …, 2024 - Springer
Polymer-based self-adaptive dielectrics are considered promising materials to meet the
growing insulation needs of flexible electronic devices and high-voltage DC cables …
growing insulation needs of flexible electronic devices and high-voltage DC cables …
Thermal resistance from non-equilibrium phonons at Si–Ge interface
As nanostructured devices become prevalent, interfaces often play an important role in
thermal transport phenomena. However, interfacial thermal transport remains poorly …
thermal transport phenomena. However, interfacial thermal transport remains poorly …
Nonequilibrium phonon transport induced by finite sizes: Effect of phonon-phonon coupling
In heat conduction through a homogenous nanomaterial, various phonons may exhibit
diverse temperatures even at the same location at a steady state, known as the local phonon …
diverse temperatures even at the same location at a steady state, known as the local phonon …
Boltzmann transport equation simulation of phonon transport across GaN/AlN interface
B Hu, W Bao, G Chen, Z Wang, D Tang - Computational Materials Science, 2023 - Elsevier
The miniaturization of devices makes interfacial resistance to heat dissipation more and
more obvious. Therefore, it is important to study interfacial thermal transport systematically. A …
more obvious. Therefore, it is important to study interfacial thermal transport systematically. A …
Non-equilibrium thermal transport: a review of applications and simulation approaches
As modern electronics shrink into nano-scale with increasing power consumption, thermal
management inevitably becomes an important issue. Contrary to the conventional view of a …
management inevitably becomes an important issue. Contrary to the conventional view of a …
Multitemperature Modeling of Thermal Transport across a Au–GaN Interface from Ab Initio Calculations
With device dimensions shrinking toward nanoscale sizes, an accurate understanding and
modeling of the thermal energy transfer mechanisms at metal–nonmetal interfaces becomes …
modeling of the thermal energy transfer mechanisms at metal–nonmetal interfaces becomes …