Journal
ELECTROCHEMISTRY COMMUNICATIONS
Volume 116, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.elecom.2020.106764
Keywords
Aqueous batteries; Electrolytes; Hydrate melts; Potential window; Potassium
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Funding
- Elements Strategy Initiative for Catalysts & Batteries (ESICB) of MEXT [JPMXP0112101003]
- JSPS [17J10359]
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Concentrated aqueous electrolytes have been widely explored for high-voltage aqueous batteries. To achieve higher voltage, even higher alkali-ion molalities are being pursuit up to 55.5 mol kg(-1) (m) that corresponds to monohydrate, but the sacrificially lowered ionic conductivity is problematic. Here we report a 61.7 m K-ion aqueous electrolyte composed of KN(SO2F)(2) (KFSI) and KSO3CF3 (KOTf). The pioneered beyond-monohydrate realm is unique to K-ion systems, in which [FSI](-) anion is stable to hydrolysis. The K-ion electrolyte has two-order higher ionic conductivity (12 mS cm(-1) at 30 degrees C) than a comparable 55.5 m Li-ion system (0.1 mS cm(-1)) while exhibiting a 2.7 V potential window on Pt being among the widest in all alkali-ion aqueous electrolytes. This work suggests the superior overall performance of aqueous K-ion batteries over other alkali-ion batteries.
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