Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7727229 | Journal of Power Sources | 2016 | 8 Pages |
Abstract
A high energy hybrid AC/AC electrochemical capacitor has been realized in aqueous Li2SO4+KI electrolyte mixture. Owing to the redox processes associated with the 2Iâ/I2 system, the positive electrode operates in narrow potential range and displays high capacity. During prolonged potentiostatic floating at 1.6 V, the hybrid cell demonstrates remarkably stable capacitance and resistance. Analyses by temperature programmed desorption after floating at 1.6 V proved that oxidation of the positive AC electrode is prevented by the use of Li2SO4+KI, which enables the maximum potential of this electrode to be shifted below the water oxidation potential. When charged at 0.2 A gâ1 up to U = 1.6 V, the hybrid cell displays a high capacitance of 75 F gâ1 (300 F gâ1 per mass of one electrode) compared to 47 F gâ1 (188 F gâ1 per mass of one electrode) for a symmetric cell in Li2SO4. At 0.2 A gâ1 up to 1.6 V, the hybrid capacitor in Li2SO4+KI displays an energy density of 26 Wh kgâ1 which approaches the energy density of 30.9 Wh kgâ1 measured when the same carbon is implemented in a capacitor using TEABF4/ACN electrolyte and charged up to 2.5 V.
Related Topics
Physical Sciences and Engineering
Chemistry
Electrochemistry
Authors
Qamar Abbas, Paulina Babuchowska, Elżbieta FrÄ
ckowiak, François Béguin,