Rechargeable batteries have become indispensable implements in our daily life and are
considered a promising technology to construct sustainable energy systems in the future …

Aqueous alkali and multivalent metal-ion batteries are practically advantageous for large-
scale energy storage because of intrinsic safety and environmental friendliness. Drawbacks …

Develo** nonflammable electrolytes with wide electrochemical windows is of great
importance for energy storage devices. Water-in-salt electrolytes (WiSE) have attracted great …

The concept of water-in-salt electrolytes was introduced recently, and these systems have
been successfully applied to yield extended operation voltage and hence significantly …

Electrolyte plays an essential role in ion transport among all electrochemical energy storage
systems (EESs). Water-in-Salt (WIS) electrolyte as a novel aqueous electrolyte has attracted …

Electrochromic batteries (EBs) have been developed as a technical breakthrough to solve
the energy issues of storage and saving. Multivalent-ions (Zn 2+, Mg 2+ and Al 3+) have …

Water-in-salts (WiSs) have recently emerged as promising electrolytes for energy storage
applications ranging from aqueous batteries to supercapacitors. Here, ab initio molecular …

Traditional aqueous energy storage devices are difficult to operate at low temperatures
owing to the poor ionic conductivity and sluggish interfacial dynamics in frozen electrolytes …

Water‐in‐salt electrolytes have enabled the development of novel high‐voltage aqueous
lithium‐ion batteries. This study explores the reasons why analogous sodium electrolytes …

Abstract “Water-in-salt” electrolyte (WISE) series have been studied for lithium-ion batteries
and supercapacitor applications, but so far, most of the focus has been on the LiTFSI salt …