A Molecular Interpretation of the Dynamics of Diffusive Mass Transport of Water within a Glassy Polyetherimide

The diffusion process of water molecules within a polyetherimide (PEI) glassy matrix has been analyzed by combining the experimental analysis of water sorption kinetics performed by FTIR spectroscopy with theoretical information gathered from Molecular Dynamics simulations and with the expression of water chemical potential provided by a non-equilibrium lattice fluid model able to describe the thermodynamics of glassy polymers. This approach allowed us to construct a convincing description of the diffusion mechanism of water in PEI providing molecular details of the process related to the effects of the cross- and self-hydrogen bonding established in the system on the dynamics of water mass transport.

Automated summary

The diffusion process of water molecules within a polyetherimide (PEI) glassy matrix has been analyzed through experimental analysis of water sorption kinetics by FTIR spectroscopy, combined with theoretical information from Molecular Dynamics simulations, and with the expression of water chemical potential provided by a non-equilibrium lattice fluid model. This analysis allowed for a convincing description of the diffusion mechanism of water in PEI, providing molecular details of the process related to the effects of the cross- and self-hydrogen bonding established in the system on the dynamics of water mass transport.