Thermal conductivity prediction by atomistic simulation methods: Recent advances and detailed comparison
Atomistic simulation methods, including anharmonic lattice dynamics combined with the
Boltzmann transport equation, equilibrium and non-equilibrium molecular dynamics …
Boltzmann transport equation, equilibrium and non-equilibrium molecular dynamics …
Strategic design of porous interfacial evaporators: A comprehensive review unveiling the significant role of pore engineering
Solar-driven interfacial evaporation (SIE) has emerged as a promising technology owing to
its enhanced heat and mass transfer characteristics when compared to conventional …
its enhanced heat and mass transfer characteristics when compared to conventional …
GPUMD: A package for constructing accurate machine-learned potentials and performing highly efficient atomistic simulations
We present our latest advancements of machine-learned potentials (MLPs) based on the
neuroevolution potential (NEP) framework introduced in Fan et al.[Phys. Rev. B 104, 104309 …
neuroevolution potential (NEP) framework introduced in Fan et al.[Phys. Rev. B 104, 104309 …
Non-Fourier heat transport in nanosystems
Energy transfer in small nano-sized systems can be very different from that in their
macroscopic counterparts due to reduced dimensionality, interaction with surfaces, disorder …
macroscopic counterparts due to reduced dimensionality, interaction with surfaces, disorder …
Thermal conductivity of monolayer graphene: Convergent and lower than diamond
The thermal conductivity of monolayer graphene is widely believed to surpass that of
diamond even for few-micron-size samples and was proposed to diverge with system size …
diamond even for few-micron-size samples and was proposed to diverge with system size …
Wave Turbulence and thermalization in one-dimensional chains
One-dimensional chains are used as a fundamental model of condensed matter, and have
constituted the starting point for key developments in nonlinear physics and complex …
constituted the starting point for key developments in nonlinear physics and complex …
Temperature and rate-dependent plastic deformation mechanism of carbon nanotube fiber: Experiments and modeling
High-performance carbon nanotube (CNT) fibers inevitably encounter complicated thermal
environments while used in aerospace structures and intelligent actuators. Catastrophic …
environments while used in aerospace structures and intelligent actuators. Catastrophic …
Effect of bundling on phonon transport in single-walled carbon nanotubes
Thermally conductive bulk materials composed of single-walled carbon nanotubes
(SWCNTs), such as fibers and mats, are characterized by a complex network formed by …
(SWCNTs), such as fibers and mats, are characterized by a complex network formed by …
Thermal conductivity of sliding bilayer h-BN and its manipulation with strain and layer confinement
Two-dimensional bilayer structures exhibit novel properties not existing in the monolayer
ones like bilayer hexagonal boron nitride (h-BN) with exotic interfacial ferroelectrics …
ones like bilayer hexagonal boron nitride (h-BN) with exotic interfacial ferroelectrics …
Influence of perturbative intertube interactions on ballistic and quasi-ballistic phonon transports in double-walled carbon nanotubes
Assembling single-walled carbon nanotubes (SWCNT) into multiwalled carbon nanotubes
(MWCNT) reduces the intrinsically high thermal conductivity of individual SWCNTs …
(MWCNT) reduces the intrinsically high thermal conductivity of individual SWCNTs …