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W4380201110 endingPage "107939" @default.
W4380201110 startingPage "107939" @default.
W4380201110 abstract "In recent decades, supercapacitors have attracted much research as low-cost, reliable, and environment-friendly energy storage devices. However, the low energy density and low operating voltage limit its wide applications. Herein, a novel 1D–2D constructed 3D multicomponent Mox:Vy–S@Co9S8 core–shell nanowires array is designed and fabricated as the cathode material through a simple and economical two-step hydrothermal reaction and electrodeposition process. The constructed 3D Mo0.5V0.5–S@Co9S8 electrode exhibits excellent charge storage capability; an area capacity of 0.91 mA h cm−2 with a corresponding specific capacity of 480.9 mA h g−1 at 2 mA cm−2. Moreover, a solid-state ASC (SS–ASC) is assembled with the as-obtained Fe2O3@CNFs/N–rGO aerogel as the anode, the constructed 3D Mox:Vy–S@Co9S8 NWAs as cathode, and KOH–PVA–gel as a gel electrolyte. As proof of concept, the assembled SS–ASC display an excellent operating voltage window of ~1.7 V and an outstanding energy density of ~108.47 W h kg−1 at ~520.65 W kg−1 power density. Also, when connected in series, the two SS–ASC devices can run an electronic clock for 30 min, demonstrating the practicability of the constructed 3D Mox:Vy–S@Co9S8 NWAs as a promising electrode material for the development of the high energy density ASC." @default.
W4380201110 created "2023-06-11" @default.
W4380201110 creator A5008014896 @default.
W4380201110 creator A5009148682 @default.
W4380201110 creator A5047087024 @default.
W4380201110 creator A5054633416 @default.
W4380201110 date "2023-10-01" @default.
W4380201110 modified "2023-10-16" @default.
W4380201110 title "Achieving the high-energy-density asymmetric supercapacitor by hierarchical molybdenum-vanadium-sulphide@covalt sulphide core–shell nanoporous hybrid as cathode and iron oxide@carbon-nanofibers/nitrogen-doped reduced graphene oxide aerogel as anode" @default.
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W4380201110 doi "https://doi.org/10.1016/j.est.2023.107939" @default.
W4380201110 hasPublicationYear "2023" @default.
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