Porous activated carbon materials from Triphala seed stones for high-performance supercapacitor applications

Abstract: Porous activated carbon materials derived from biomass could be the suitable materials for high-rate performance electrochemical supercapacitors as it exhibits high surface area due to well-defined pore structure. Here, we report the novel porous activated carbon from Triphala seed stones by chemical activation with zinc chloride at different carbonization temperature (400-700 °C) under the nitrogen gas atmosphere. The activated carbon was characterized by Fourier transform-infrared (FTIR) spectroscopy, Raman … Show more

“…Larger surface area and appropriate pore volumes enhance the device's energy and power density. Optimizing these parameters help in designing energy storage materials that can store more energy, charge and discharge faster, and has improved overall performance and durability in various applications [6][7][8][9].…”

Comparative study of machine learning based prediction of supercapacitance performance of activated carbon prepared from Bio-based Materials

“…Larger surface area and appropriate pore volumes enhance the device's energy and power density. Optimizing these parameters help in designing energy storage materials that can store more energy, charge and discharge faster, and has improved overall performance and durability in various applications [6][7][8][9].…”

Comparative study of machine learning based prediction of supercapacitance performance of activated carbon prepared from Bio-based Materials