Abstract
Supercapacitors are energy storage devices designed to operate at higher power densities than conventional batteries, but their energy density is still too low for many applications. Efforts are made to design new electrolytes with wider electrochemical windows than aqueous or conventional organic electrolytes in order to increase energy density. Ionic liquids (ILs) with wide electrochemical stability windows are excellent candidates to be employed as supercapacitor electrolytes. ILs containing tetracyanoborate anions [B(CN)4] offer wider electrochemical stability than conventional electrolytes and maintain a high ionic conductivity (6.9 mS cm−1). Herein, we report the use of ILs containing the [B(CN)4] anion for such an application. They presented a high maximum operating voltage of 3.7 V, and two‐electrode devices demonstrate high specific capacitances even when operating at relatively high rates (ca. 20 F g−1 @ 15 A g−1). This supercapacitor stored more energy and operated at a higher power at all rates studied when compared with cells using a commonly studied ILs.
Highlights
This supercapacitor stored more energy and operated at a higher power at all rates studied when compared with cells using a commonly studied ionic liquids (ILs)
Supercapacitors, or electrochemical double-layer capacitors (EDLCs), are energy storage devices that are designed to operate at higher power densities than conventional batteries
IL based EDLCs have not been developed commercially because they possess lower ionic conductivity values than conventional electrolytes, leading to higher internal resistance which results in reduced power density.[5,6,7,8,9,10]
Summary
As in the maximum operating voltage determination, it is observed that the EDLC containing [Pyr1,4][B(CN)4] has a higher capacitance than the [Pip1,4] counterpart. Discharge specific capacitance and d) ESRs calculated from the 20th GCD for EDLCs containing [Pip1,4][B(CN)4] (green squares), [Pyr1,4][B(CN)4] (red circles) and
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