Lukatskaya, Maria R.Maria R.LukatskayaFeldblyum, Jeremy I.Jeremy I.FeldblyumMacKanic, David G.David G.MacKanicLissel, FranziskaFranziskaLisselMichels, Dominik L.Dominik L.MichelsCui, YiYiCuiBao, ZhenanZhenanBao2023-04-122023-04-122018-10Energy and Environmental Science 11 (10): 2876-2883 (2018-10)http://hdl.handle.net/11420/15170Electrolyte solutions are a key component of energy storage devices that significantly impact capacity, safety, and cost. Recent developments in "water-in-salt" (WIS) aqueous electrolyte research have enabled the demonstration of aqueous Li-ion batteries that operate with capacities and cyclabilities comparable with those of commercial non-aqueous Li-ion batteries. Critically, the use of aqueous electrolyte mitigates safety risks associated with non-aqueous electrolytes. However, the high cost and potential toxicity of imide-based WIS electrolytes limit their practical deployment. In this report, we disclose the efficacy of inexpensive, non-toxic mixed cation electrolyte systems for Li-ion batteries that otherwise provide the same benefits as current WIS electrolytes: extended electrochemical stability window and compatibility with traditional intercalation Li-ion battery electrode materials. We take advantage of the high solubility of potassium acetate to achieve the WIS condition in a eutectic mixture of lithium and potassium acetate with water-to-cation ratio as low as 1.3. Our work suggests an important direction for the practical realization of safe, low-cost, and high-performance aqueous Li-ion batteries.en1754-569220181028762883Journal Article10.1039/c8ee00833gOther