Long-range electrostatic screening in ionic liquids #MMPMID26040001
Gebbie MA; Dobbs HA; Valtiner M; Israelachvili JN
Proc Natl Acad Sci U S A 2015[Jun]; 112 (24): 7432-7 PMID26040001show ga
Liquid solutions with high concentrations of electrically charged ions are key elements of many energy storage technologies and are prevalent in biology. Nevertheless, they remain poorly understood. We study ionic liquids?liquids composed solely of ions?with the goal of providing a general picture of concentrated ionic solutions. Using molecular-scale experiments, we show that, surprisingly, less than 0.1% of the ions in ionic liquids are ?free? to contribute to electrostatic screening, with the remainder ?stuck? as neutral aggregates. Our temperature-dependent results provide fundamental guidance for designing high-performance ionic liquids for numerous applications. More broadly, we provide a novel way of envisioning concentrated ionic solutions with wide-ranging implications, such as elucidating the nanoscale properties of underwater bioadhesives and other self-assembled biomolecules.