Litcius/Paper detail

How Does van der Waals Confinement Enhance Phonon Transport?*

Xiaoxiang Yu, Dengke Ma, Chengcheng Deng, Xiao Wan, Meng An, Han Meng, Xiaobo Li, Xiaoming Huang, Nuo Yang

2021Chinese Physics Letters36 citationsDOIOpen Access PDF

Abstract

We study the mechanism of van der Waals (vdW) interactions on phonon transport in atomic scale, which would boost developments in heat management and energy conversion. Commonly, the vdW interactions are regarded as a hindrance in phonon transport. Here we propose that the vdW confinement can enhance phonon transport. Through molecular dynamics simulations, it is realized that the vdW confinement is able to make more than two-fold enhancement on thermal conductivity of both polyethylene single chain and graphene nanoribbon. The quantitative analyses of morphology, local vdW potential energy and dynamical properties are carried out to reveal the underlying physical mechanism. It is found that the confined vdW potential barriers reduce the atomic thermal displacement magnitudes, leading to less phonon scattering and facilitating thermal transport. Our study offers a new strategy to modulate the phonon transport.

Topics & Concepts

Phononvan der Waals forceThermal conductivityGrapheneCondensed matter physicsMaterials scienceThermalScatteringMolecular dynamicsThermal energyPhysicsDisplacement (psychology)Phonon scatteringThermal conductionChemical physicsHeat currentEnergy transportLow energyDynamics (music)Interatomic potentialEnergy (signal processing)Thermal properties of materialsThermal Radiation and Cooling TechnologiesThermography and Photoacoustic Techniques