Ion transport and structural dynamics in homologous ammonium and phosphonium-based room temperature ionic liquids

Philip J. Griffin, Adam P. Holt, Katsuhiko Tsunashima, Joshua R. Sangoro, Friedrich Kremer, Alexei P. Sokolov

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Abstract

Charge transport and structural dynamics in a homologous pair of ammonium and phosphonium based room temperature ionic liquids (ILs) have been characterized over a wide temperature range using broadband dielectric spectroscopy and quasi-elastic light scattering spectroscopy. We have found that the ionic conductivity of the phosphonium based IL is significantly enhanced relative to the ammonium homolog, and this increase is primarily a result of a lower glass transition temperature and higher ion mobility. Additionally, these ILs exhibit pronounced secondary relaxations which are strongly influenced by the atomic identity of the cation charge center. While the secondary relaxation in the phosphonium IL has the expected Arrhenius temperature dependence characteristic of local beta relaxations, the corresponding relaxation process in the ammonium IL was found to exhibit a mildly non-Arrhenius temperature dependence in the measured temperature range - indicative of molecular cooperativity. These differences in both local and long-range molecular dynamics are a direct reflection of the subtly different inter-ionic interactions and mesoscale structures found in these homologous ILs.

Original languageEnglish
Article number084501
JournalJournal of Chemical Physics
Volume142
Issue number8
DOIs
StatePublished - Feb 28 2015

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