Hydrogen Bond Redistribution Effects in Mixtures of Protic Ionic Liquids Sharing the Same Cation: Nonideal Mixing with Large Negative Mixing Enthalpies

14 March 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

We report a joint experimental and theoretical study characterising the hydrogen bond (HB) redistribution in mixtures of two different protic ionic liquids (PILs) sharing the same cation: triethylammonium-methanesulfonate ([TEA][OMs]) and triethylammonium-trifluoromethanesulfonate ([TEA][OTf]). The mixing behaviour deviates strongly from ideality, exhibiting large negative energies of mixing. In the PIL, the [TEA] cation acts as a HB donor, being able to donate a single HB. Both, the [OMs] and the [OTf] anions can act as HB acceptors, which can accept multiple HBs via their respective SO3-groups. We use a combination of molecular dynamics (MD) simulations, calorimetry, and $^1$H-NMR chemical shift measurements to determine the difference in HB strength between the two species to be about 13 kJ/mol, favouring the [TEA]-[OMs] interaction. Based on our MD simulations we are able to formulate a lattice model, discriminating between HB and nonspecific intermolecular interactions. We demonstrate that, due to the ordered structure of the PILs, only the HB interactions contribute to the mixing energy. This allows to us to connect the equilibrium of HBs to each of the two anion species with the mixing energies by a simple relation, which is obeyed by both, MD-simulation as well as experimental calorimetry and 1H-NMR chemical shift data.

Keywords

Protic Ionic Liquids
Liquid Mixtures
Enthalpies of Mixing
Calorimetry
Hydrogen Bonds
1H-NMR
Molecular Dynamics Simulations

Supplementary materials

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Title
Supporting Information: Hydrogen Bond Redistribution Effects in Mixtures of Protic Ionic Liquids Sharing the Same Cation: Nonideal Mixing with Large Negative Mixing Enthalpies
Description
MD Simulation Details; Preparation of PILs and Mixtures; 1H-NMR Spectra; Experimental Determination of the Excess Enthalpies
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