Oil tea shell derived porous carbon with an extremely large specific surface area and modification with MnO2 for high-performance supercapacitor electrodes

Abstract

Activated carbon (AC) with an extremely large specific surface area (2851m2/g) and large pore volume (2.68cm3/g) was derived from bio-waste oil tea shells by using ZnCl2 as the activation agent. The porous carbon had a high amount of CO2 adsorption (3.61mmol/g) at ambient conditions (25°C, 1bar). Comprehensive characterizations including XRD, Raman, SEM, TEM, and TGA proved graphite existed in the AC samples. However, the capacitance (146F/g @ 0.5A/g) was in the normal range of carbon materials. By coating with a thin layer of MnO2, the capacitance of MnO2/AC was enhanced significantly (1126F/g @ 0.5A/g) without sacrificing the rate capability and cycle stability, even though the surface area was reduced to 23m2/g and pore volume reduced to 0.05cm3/g. A two-electrode (MnO2/AC//AC) supercapacitor cell was set up, the energy density reached 24Wh/kg with a power density of 275W/kg.