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Abstract Quantum-chemical modeling of structure and cation migration barriers in Nafion-like ammonium substituted ionomers plasticized with dimethyl sulfoxide (DMSO) was investigated by ab initio calculations. We use B3LYP/6-31G* hybrid density… Click to show full abstract
Abstract Quantum-chemical modeling of structure and cation migration barriers in Nafion-like ammonium substituted ionomers plasticized with dimethyl sulfoxide (DMSO) was investigated by ab initio calculations. We use B3LYP/6-31G* hybrid density functional methods and the PBE/PAW method taking into account the gradient corrections and periodic boundary conditions. It is shown that at a low content of DMSO (n ≤ 4), NH4+ cation removal from the SO3−-group occurs with a significant energy cost (>0.4 eV). As the amount of DMSO increases, both the separation energy and the barriers to ammonium ion migration decrease to 0.1–0.2 eV. Ab initio molecular dynamics modeling demonstrated that at a moderate temperature (~350 K), there is a rapid (~15 ps) redistribution of the DMSO molecules between the Nafion chains located at distances ≤2 nm.
Journal Title: Solid State Ionics
Year Published: 2018
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