Molecular dynamics simulations to compute diffusion coefficients of gases into polydimethylsiloxane and poly{(1,5‐ naphthalene)‐co‐[1,4‐durene‐2,2′‐bis(3,4‐dicarboxyl phenyl)hexafluoropropane diimide]} |
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Authors: | Sheetal S Jawalkar Tejraj M Aminabhavi |
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Affiliation: | 1. Molecular Modeling Division, Center of Excellence in Polymer Science, Karnatak University, Dharwad, India 580 003;2. Molecular Modeling Division, Center of Excellence in Polymer Science, Karnatak University, Dharwad, India 580 003Molecular Modeling Division, Center of Excellence in Polymer Science, Karnatak University, Dharwad, India 580 003 |
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Abstract: | Diffusion coefficients of N2, O2, CO2 and CH4 at 298 K in polydimethylsiloxane (PDMS) and poly{(1,5‐naphthalene)‐co‐1,4‐durene‐2,2′‐bis(3,4‐dicarboxyl phenyl)hexafluoropropane diimide]} (6FDA‐1,5‐NDA) polymers have been estimated using molecular dynamics (MD) simulations. Estimated diffusion coefficients in PDMS decrease systematically with increasing size of the penetrant gas molecules following the experimental observations. For 6FDA‐1,5‐NDA polymer, diffusion coefficients decrease in the same order of magnitude, but differ in their sequential order, due to varying side group interactions of the polymer with the gaseous molecules. Cohesive energy density, solubility parameter and free volume of the polymers were determined using MD simulations. Reliability and accuracy of the simulations have been tested typically with the computed values of the diffusion coefficient of O2 in PDMS polymer, which compare well with the literature data. X‐ray scattering profiles of 6FDA‐1,5‐NDA have been generated to understand the interrelationship between the morphology and diffusion coefficients. The radial distribution function was evaluated to find the contribution of atoms that are important in understanding the molecular interactions during gas diffusion in polymers. Copyright © 2007 Society of Chemical Industry |
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Keywords: | molecular dynamics simulations silicone polysiloxane 6FDA‐1 5‐NDA diffusion |
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