Computational modeling of structure and OH-anion diffusion in quaternary ammonium polysulfone hydroxide–Polymer electrolyte for application in electrochemical devices
Boris V. Merinov, William A. Goddard III
Abstract
Using computational approaches we predict the microstructure of high-performance alkaline polymer, quaternary ammonium polysulfone hydroxide (QAPS-OH) membranes, dry and with ∼14 wt% water uptake. The microstructure can be described as a hydrophobic polymer backbone penetrated by a network of three-dimensional interlinked hydrophilic channels of different diameters. Mobile OH-anions are distributed inside the channels. OH diffusion coefficients and corresponding activation energy were calculated from our molecular dynamics simulations of the QAPS-OH membrane at different temperatures. The predicted values are consistent with available experimental data. Possible mechanisms of the OH-anion diffusion have been discussed.
Group Members
Merinov, B. V. & III, W. A. G. (2013). Computational modeling of structure and OH-anion diffusion in quaternary ammonium polysulfone hydroxide–Polymer electrolyte for application in electrochemical devices. *Journal of Membrane Science*, *431*, 79-85. https://doi.org/10.1016/j.memsci.2012.12.010