Ion and solvent dynamics in ‘solvent-in-salt’ electrolytes

Recently, the solvent-in-salt (SIS) systems have attracted significant attention as a perspective electrolytes for the next generation of high voltage batteries and supercapacitors. In this study we analyzed ion and solvent dynamics in highly concentrated solutions in water and acetonitrile of two similar salts Li- TFSI and Li-FSI. We performed comprehensive study of bulk properties using Broadband dielectric spectroscopy (BDS), quasielastic neutron scattering (QENS), NMR, FTIR, and MD simulations. The results revealed that even small amount of solvent leads to high ionic conductivity. Moreover, the conductivity of FSI systems is always greater than the TFSI systems. Analysis reveals that the high conductivity is provided by high solvent mobility even in these very concentrated salt solutions, and higher mobility in the FSI systems is caused by weaker anion-solvent interactions. Presented results suggest that FSI based systems are more promising for use in electrical energy storage systems.