AI Article Synopsis
- Supercapacitors are essential for modern technologies needing quick energy storage, but improvements in electrode design are necessary to enhance energy density and stability.
- The study focuses on different phases of MoS (2H, 3R, and 1T), finding that the metallic 1T phase exhibits superior capacitance performance, particularly in KSO electrolyte.
- The 1T MoS symmetric supercapacitor device achieves a notable power density of 225 W/kg and energy density of 4.19 Wh/kg, while maintaining a commendable 82% capacitance retention after 1000 cycles.
Article Abstract
Supercapacitors have been the key target as energy storage devices for modern technology that need fast charging. Although supercapacitors have large power density, modifications should be done to manufacture electrodes with high energy density, longer stability, and simple device structure. The polymorph MoS has been one of the targeted materials for supercapacitor electrodes. However, it was hard to tune its phase and stability to achieve the maximum possible efficiency. Herein, we demonstrate the effect of the three main phases of MoS (the stable semiconductor 2H, the metastable semiconductor 3R, and the metastable metallic 1T) on the capacitance performance. The effect of the cation intercalation on the capacitance performance was also studied in LiSO, NaSO, and KSO electrolytes. The performance of the electrode containing the metallic 1T outperforms those of the 2H and 3R phases in all electrolytes, with the order 1T > 3R > 2H. The 1T/2H phase showed a maximum performance in the KSO electrolyte with a specific capacitance of 590 F g at a scan rate of 5 mV s. MoS showed a good performance in both positive and negative potential windows allowing the fabrication of symmetric supercapacitor devices. The 1T MoS symmetric device showed a power density of 225 W/kg with an energy density of 4.19 Wh/kg. The capacitance retention was 82% after 1000 cycles, which is an outstanding performance for the metastable 1T-containing electrode.
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| http://dx.doi.org/10.1021/acsami.9b11444 | DOI Listing |
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