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Tuning Water Networks via Ionic Liquid/Water Mixtures

Archana Verma, John P. Stoppelman, Jesse G. McDaniel

2020International Journal of Molecular Sciences40 citationsDOIOpen Access PDF

Abstract

Water in nanoconfinement is ubiquitous in biological systems and membrane materials, with altered properties that significantly influence the surrounding system. In this work, we show how ionic liquid (IL)/water mixtures can be tuned to create water environments that resemble nanoconfined systems. We utilize molecular dynamics simulations employing ab initio force fields to extensively characterize the water structure within five different IL/water mixtures: [BMIM + ][BF 4 − ], [BMIM + ][PF 6 − ], [BMIM + ][OTf − ], [BMIM + ][NO 3 − ] and [BMIM + ][TFSI − ] ILs at varying water fraction. We characterize water clustering, hydrogen bonding, water orientation, pairwise correlation functions and percolation networks as a function of water content and IL type. The nature of the water nanostructure is significantly tuned by changing the hydrophobicity of the IL and sensitively depends on water content. In hydrophobic ILs such as [BMIM + ][PF 6 − ], significant water clustering leads to dynamic formation of water pockets that can appear similar to those formed within reverse micelles. Furthermore, rotational relaxation times of water molecules in supersaturated hydrophobic IL/water mixtures indicate the close-connection with nanoconfined systems, as they are quantitatively similar to water relaxation in previously characterized lyotropic liquid crystals. We expect that this physical insight will lead to better design principles for incorporation of ILs into membrane materials to tune water nanostructure.

Topics & Concepts

Ionic liquidMolecular dynamicsHydrogen bondChemical physicsNanostructureMicelleRelaxation (psychology)MembraneLyotropic liquid crystalMoleculeChemistryLiquid waterChemical engineeringMaterials scienceNanotechnologyLiquid crystalComputational chemistryPhysical chemistryAqueous solutionThermodynamicsOrganic chemistryOptoelectronicsPhysicsSocial psychologyCatalysisPsychologyBiochemistryEngineeringIonic liquids properties and applicationsSurfactants and Colloidal SystemsSpectroscopy and Quantum Chemical Studies
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