AI Article Synopsis
- A series of porous carbon supercapacitor electrode materials were created using mung bean husks through pyrolysis and hydrothermal methods, enhanced by KOH activation.
- The study found that the oxygen-containing groups in the biochar significantly contribute to forming a three-dimensional hierarchical porous structure, optimizing the supercapacitor performance.
- The resulting electrodes, including original bio-structured carbon (PC) and two other types (HPC and HPPC), demonstrated impressive capacitance values and retention ratios, with HPC//HPC supercapacitor achieving a high energy density of 20.4 Wh/kg.
Article Abstract
Here, a series of porous carbon based supercapacitor electrode materials have been synthesized by means of pyrolysis and hydrothermal methods combining with KOH activation using the biomass wastes mung bean husks as resources. The influence of synthesis process on the morphology, structure and supercapacitor performance of mung bean husks derived porous carbons has been investigated systematically. Especially, it is found that these oxygen-containing groups on the biochar play a crucial role in fabricating the three-dimensional (3D) hierarchical porous structure carbon. The original bio-structured porous carbon (PC), the 3D architecture porous carbon (HPC) and the porous carbon block (HPPC) have a high specific surface area, and the former mainly contains micropores and the latter two possess multistage pores. The specific capacitance of PC, HPC and HPPC is respectively up to 390 F g, 353 F g, 304 F g at 1 A g, and still maintains as high as 287 F g, 270 F g and 235 F g with corresponding retention ratio of 73.5%, 76.48%, 77.3% even at a high current density of 50 A g. HPC//HPC symmetric supercapacitor achieves a high energy density of 20.4 Wh kg at 872 W kg in 1 M NaSO electrolyte.
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| http://dx.doi.org/10.1016/j.jcis.2018.09.055 | DOI Listing |
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