We performed molecular dynamics simulations of the low-molecular weight organic glass former ortho-terphenyl in bulk and freestanding films.The main motivation is to provide molecular insight into the confinement effect without explicit interfaces.Based on earlier models of ortho-terphenyl we developed an atomistic model for bulk simulations.The model reproduces literature data both from simulations and experiments starting from specific volume and diffusivity to mean square displacement and radial distribution functions.After characterizing the bulk model we form freestanding films by the elongation and expansion method.These films give us the opportunity to study the dynamical heterogeneity near the glass transition through in-plane mobility and reorientation dynamics.We finally compare the model in bulk and under confinement.We found qualitatively a lower glass transition temperature for the freestanding film compared to the bulk.
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