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Hydrothermal Synthesis of α‐MnS Nanoflakes@Nitrogen and Sulfur Co‐doped rGO for High‐Performance Hybrid Supercapacitor

Saad G. MohamedMining and Metallurgy Engineering Department Tabbin Institute for Metallurgical Studies, (TIMS), Tabbin Helwan 109 Cairo 11421 EgyptSayed Y. AttiaMining and Metallurgy Engineering Department Tabbin Institute for Metallurgical Studies, (TIMS), Tabbin Helwan 109 Cairo 11421 EgyptYosry F. BarakatMining and Metallurgy Engineering Department Tabbin Institute for Metallurgical Studies, (TIMS), Tabbin Helwan 109 Cairo 11421 EgyptHamdy H. HassanChemistry Department Faculty of Science Ain Shams University Abbasiya 11566 Cairo EgyptWail Al ZoubiMaterials Electrochemistry Laboratory School of Materials Science and Engineering Yeungnam, University Gyeongsan 38541, Republic of Korea
2018en
ABI

Аннотация

Abstract The α‐MnS nanoflakes/rGO sheets were obtained via a facile one‐step hydrothermal approach using carbon disulfide as sulfur source, and ethylenediamine as a complexing agent which forms a complex with Mn 2+ ions. Oil droplets of carbon disulfide and water are bridged via the hydrophobic/hydrophilic nature of ethylenediamine. α‐MnS/rGO was successfully co‐doped by nitrogen and sulfur by the action of ethylenediamine and CS 2 , respectively. The as‐prepared material exhibits an excellent electrochemical performance with a remarkable specific capacitance of 700 F g −1 at a current density of 1 A g −1 , high rate capability of 66.65% retention at 20 A g −1 and superior cycling stability of 127% capacitance retention after 10000 cycles. To further explore the electrochemical performance of α‐MnS/rGO, a hybrid supercapacitor device was assembled using the α‐MnS/rGO as a positive electrode and an activated carbon as a negative electrode. The fabricated device exhibits the highest energy density of 38.13 Wh kg −1 at a power density of 850 W kg −1 and still retains 21.25 Wh kg −1 at a power density of 17 kW kg −1 . These superior results demonstrate that the α‐MnS/rGO nanoflakes electrode can be considered as a promising material for high‐performance supercapacitors.

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