Thermal conductivity of amorphous materials
Thermal conductivity is one of the most fundamental properties of solid materials. The
thermal conductivity of ideal crystal materials has been widely studied over the past …
thermal conductivity of ideal crystal materials has been widely studied over the past …
Rise of silicene: A competitive 2D material
Silicene, a silicon analogue of graphene, has attracted increasing attention during the past
few years. As early as in 1994, the possibility of stage corrugation in the Si analogs of …
few years. As early as in 1994, the possibility of stage corrugation in the Si analogs of …
A review on lithium-ion battery separators towards enhanced safety performances and modelling approaches
In recent years, the applications of lithium-ion batteries have emerged promptly owing to its
widespread use in portable electronics and electric vehicles. Nevertheless, the safety of the …
widespread use in portable electronics and electric vehicles. Nevertheless, the safety of the …
Boosting phonon transport across AlN/SiC interface by fast annealing amorphous layers
The high increase in interface density has become the main bottleneck for heat dissipation
in gallium nitride/aluminum nitride (AlN)/silicon carbide (SiC) based nanodevices. In this …
in gallium nitride/aluminum nitride (AlN)/silicon carbide (SiC) based nanodevices. In this …
Machine learning and artificial neural network accelerated computational discoveries in materials science
Artificial intelligence (AI) has been referred to as the “fourth paradigm of science,” and as
part of a coherent toolbox of data‐driven approaches, machine learning (ML) dramatically …
part of a coherent toolbox of data‐driven approaches, machine learning (ML) dramatically …
A theoretical review on interfacial thermal transport at the nanoscale
With the development of energy science and electronic technology, interfacial thermal
transport has become a key issue for nanoelectronics, nanocomposites, energy …
transport has become a key issue for nanoelectronics, nanocomposites, energy …
Machine learning and artificial neural network prediction of interfacial thermal resistance between graphene and hexagonal boron nitride
High-performance thermal interface materials (TIMs) have attracted persistent attention for
the design and development of miniaturized nanoelectronic devices; however, a large …
the design and development of miniaturized nanoelectronic devices; however, a large …
Molecular dynamics simulation of the interfacial thermal resistance between phosphorene and silicon substrate
Phosphorene is a recently discovered member of the two-dimensional (2D) monolayer
materials, which has been reported to exhibit unique characteristics on mechanical and …
materials, which has been reported to exhibit unique characteristics on mechanical and …
Thermal conductance in single molecules and self-assembled monolayers: Physicochemical insights, progress, and challenges
The way in which thermal transport is related to (supra) molecular structures in various
materials and devices at an atomic level is gathering increasing interest. Thermal transport …
materials and devices at an atomic level is gathering increasing interest. Thermal transport …
Carbon-nitride 2D nanostructures: thermal conductivity and interfacial thermal conductance with the silica substrate
The rate of heat dissipation from a 2D nanostructure strongly depends on the interfacial
thermal conductance with its substrate. In this paper, the interfacial thermal conductance of …
thermal conductance with its substrate. In this paper, the interfacial thermal conductance of …