AIP Advances (Oct 2022)

Molecular dynamics study on the thermal conductivity of a single polyethylene chain: Strain dependence and potential models’ effect

  • Tsuyoshi Ito,
  • Hiroki Matsubara,
  • Donatas Surblys,
  • Taku Ohara

DOI
https://doi.org/10.1063/5.0095975
Journal volume & issue
Vol. 12, no. 10
pp. 105223 – 105223-8

Abstract

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The thermal conductivity of a single polymer chain, which is an important factor in the rational design of polymer-based thermal management materials, is strongly affected by the strain state of the chain. In the present study, using non-equilibrium molecular dynamics simulations, the thermal conductivity of a single polyethylene chain, representing a typical polymer chain, was calculated as a function of strain. To investigate the effect of different modeling of covalent bonds, the results were compared for reactive and non-reactive potential models, the AIREBO and NERD potentials, respectively. When the strain ε was as small as ε 0.1, the reactive potential also produced unphysical results due to the effect of the switching function, describing the formation and breaking of covalent bonds. The present results indicate that careful selection of the potential model and deformation range is necessary when investigating the properties of polymers under tensile strain.