Non-aqueous electrolyte solutions

“…Another benefit is the increase in solubility of the electrolyte, which is often observed in mixed solvents. 6 The second approach is based on the modifications of the mixed solvent or the anion which interacts with lithium. Chemical modifications of the solution structure is known since Gilkerson and co-workers' pioneering work.…”

A New Class of Electrochemically and Thermally Stable Lithium Salts for Lithium Battery Electrolytes: II. Conductivity of Lithium Organoborates in Dimethoxyethane and Propylene Carbonate

“…Another benefit is the increase in solubility of the electrolyte, which is often observed in mixed solvents. 6 The second approach is based on the modifications of the mixed solvent or the anion which interacts with lithium. Chemical modifications of the solution structure is known since Gilkerson and co-workers' pioneering work.…”

A New Class of Electrochemically and Thermally Stable Lithium Salts for Lithium Battery Electrolytes: II. Conductivity of Lithium Organoborates in Dimethoxyethane and Propylene Carbonate

“…Solvent windowsv arious electrode material and electrolyte combinations. [33,[123][124][125][126][127][128][129] ( † current density cut-off at j = AE 0.1 mA cm À2 .). 5A).…”

“… Solvent windows various electrode material and electrolyte combinations . († current density cut‐off at j =±0.1 mA cm −2 .…”

Electrode Materials in Modern Organic Electrochemistry

“…Another issue of the aqueous systems is the cell potential, which is limited by the water electrolysis. Alternatively to these systems organic electrolytes provide wider potential windows as well as a wider temperature range due to the physical and chemical properties of the non-aqueous electrolytes [2] . But up to now no research on the behaviour of non-aqueous RFBs was done at low temperatures.…”

Low Temperature, High Energy Density Non-Aqueous Redox Flow Battery