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Flexibility is the key to tuning the transport properties of fluorinated imide-based ionic liquids

Frederik Philippi, Daniel Rauber, Oriele Palumbo, Kateryna Goloviznina, Jesse G. McDaniel, David Pugh, Sophia Suarez, Carla C. Fraenza, Agı́lio A. H. Pádua, Christopher W. M. Kay, Tom Welton

2022Chemical Science42 citationsDOIOpen Access PDF

Abstract

Ionic liquids are becoming increasingly popular for practical applications such as biomass processing and lithium-ion batteries. However, identifying ionic liquids with optimal properties for specific applications by trial and error is extremely inefficient since there are a vast number of potential candidate ions. Here we combine experimental and computational techniques to determine how the interplay of fluorination, flexibility and mass affects the transport properties of ionic liquids with the popular imide anion. We observe that fluorination and flexibility have a large impact on properties such as viscosity, whereas the influence of mass is negligible. Using targeted modifications, we show that conformational flexibility provides a significant contribution to the success of fluorination as a design element. Contrary to conventional wisdom, fluorination by itself is thus not a guarantor for beneficial properties such as low viscosity.

Topics & Concepts

ImideIonic liquidFlexibility (engineering)Key (lock)Ionic bondingComputer scienceChemistryMaterials scienceIonOrganic chemistryMathematicsComputer securityCatalysisStatisticsIonic liquids properties and applicationsCatalysis and Oxidation ReactionsOrganic and Molecular Conductors Research
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