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Dynamics of Water Clusters Confined in Ionic Liquid at an Elevated Pressure.

Amith Kumar MuraliMarian PaluchRiccardo CasaliniAlyna LangeAndreas TaubertZaneta Wojnarowska
Published in: The journal of physical chemistry letters (2024)
Over the years, numerous experimental and theoretical efforts have been dedicated to investigating the mysteries of water and determining its new unexplored physical properties. Despite this, high-pressure studies of water and aqueous mixtures close to the glass transition still represent an unknown area of research. Herein, we address a fundamental issue: the validity of the density scaling concept for fast water dynamics. For this purpose, we performed ambient and high-pressure dielectric measurements of a supercooled equimolar aqueous mixture of an acidic ionic liquid. All isothermal and isobaric relaxation data describing the time scale of charge transport (τ σ ) and fast dynamics within the water clusters (τ ν ) reveal visual evidence of a liquid-glass transition. Furthermore, both relaxation processes satisfy the ρ γ / T scaling concept with a single exponent γ = 0.58. Thus, the scaling exponent is a state-point-independent parameter for the dynamics of water clusters confined in ionic liquid investigated in the pressure range up to 300 MPa.
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