Electrochemical Performance Of Thespesia Populnea Seeds Derived Activated Carbon - Supercapacitor And Its Improved Specific Energy In Redox Additive Electrolytes

Supercapacitor (SC) is a promising high power energy storage device for specific applications. In the last few decades, various carbon-based materials with rational surface alterations, and carbon composites have been explored as electrodes for SCs. In addition to the redox behavior of the electrode materials, it has been proposed to use highly reversible redox species in the electrolytes, which can improve the performance of the SCs through redox processes at the electrode-electrolyte interface. Herein, the activated carbon derived from Thespesia Populnea Seeds (TPC) is explored for supercapacitor application in redox additive electrolyte. The electrochemical capacitive performance of TPC was studied using three different redox additives in 1M Na2SO4 electrolyte. Among the three redox additives, an outstanding specific capacity of 1779 degrees C/g was observed in hydroquinone (HQ)/Na2SO4, which is superior to K-3[Fe(CN)(6)]/Na2SO4 (1440 degrees C/g) and FAS/Na2SO4 (873 degrees C/g) electrolytes. The fabricated TPC symmetric cell in HQ/Na2SO4 delivered an enhanced electrochemical performance (1096 degrees C/g at 1 A/g) and a maximum specific energy of 76 Wh/kg in HQ/Na2SO4.