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W2810183748 abstract "Abstract In this work, ZnCo2S4 nanospheres in a hollow core-shell structure are synthesized by a facile self-template route. The synthesis route involves a solvothermal method synthesis of Zn-Co precursor solid spheres in glycerol and isopropanol and then sulfidation to obtain hollow ZnCo2S4 core-shell nanospheres. The synthesized obtain hollow ZnCo2S4 core-shell nanospheres possess mesoporous texture and its specific surface area is as large as 117.3 m2 g−1. Benefiting from the remarkable advantages such as novel hollow core-shell structures, mesoporous and large specific surface area, these ZnCo2S4 as electrode material exhibit a specific capacitance of 1045.3 F g−1 at 2.0 A g−1 and superior long-term cycling performance (around 4.5% loss after 5000 continuous cycling). Moreover, an asymmetric supercapacitor assembled with hollow ZnCo2S4 core-shell nanospheres and activated carbon delivers the energy density of 51.7 Wh kg−1 at a power density of 1700 W kg−1. Even at 6800 W kg−1, the energy density can still reach 42.5 Wh kg−1. This work not only demonstrates hollow ZnCo2S4 core-shell nanospheres utilized as a promising candidate for supercapacitors, but also provides a simple and cost-effective strategy for designing and synthesizing other high performance hollow structured metal-sulfides for electrochemical energy storage." @default.
W2810183748 created "2018-07-10" @default.
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W2810183748 date "2018-10-01" @default.
W2810183748 modified "2023-09-29" @default.
W2810183748 title "Mesoporous hollow ZnCo2S4 core-shell nanospheres for high performance supercapacitors" @default.
W2810183748 cites W1802379727 @default.
W2810183748 cites W1824952256 @default.
W2810183748 cites W1966152382 @default.
W2810183748 cites W1991095073 @default.
W2810183748 cites W1993274927 @default.
W2810183748 cites W2001021016 @default.
W2810183748 cites W2006553433 @default.
W2810183748 cites W2017943031 @default.
W2810183748 cites W2029586850 @default.
W2810183748 cites W2030713325 @default.
W2810183748 cites W2040509250 @default.
W2810183748 cites W2044347440 @default.
W2810183748 cites W2050594642 @default.
W2810183748 cites W2063128622 @default.
W2810183748 cites W2065992262 @default.
W2810183748 cites W2079789169 @default.
W2810183748 cites W2082948612 @default.
W2810183748 cites W2084331773 @default.
W2810183748 cites W2084584961 @default.
W2810183748 cites W2109781100 @default.
W2810183748 cites W2115427802 @default.
W2810183748 cites W2118196965 @default.
W2810183748 cites W2119591966 @default.
W2810183748 cites W2152754138 @default.
W2810183748 cites W2153320071 @default.
W2810183748 cites W2162389662 @default.
W2810183748 cites W2274617599 @default.
W2810183748 cites W2290567516 @default.
W2810183748 cites W2313702111 @default.
W2810183748 cites W2409844884 @default.
W2810183748 cites W2410443686 @default.
W2810183748 cites W2415669785 @default.
W2810183748 cites W2502658181 @default.
W2810183748 cites W2527805997 @default.
W2810183748 cites W2529276298 @default.
W2810183748 cites W2533274196 @default.
W2810183748 cites W2534948223 @default.
W2810183748 cites W2535410652 @default.
W2810183748 cites W2556723530 @default.
W2810183748 cites W2560647933 @default.
W2810183748 cites W2580298823 @default.
W2810183748 cites W2599982422 @default.
W2810183748 cites W2600057905 @default.
W2810183748 cites W2606192834 @default.
W2810183748 cites W2611425845 @default.
W2810183748 cites W2613241133 @default.
W2810183748 cites W2618794519 @default.
W2810183748 cites W2619745393 @default.
W2810183748 cites W2620215951 @default.
W2810183748 cites W2623577808 @default.
W2810183748 cites W2624053167 @default.
W2810183748 cites W2700535093 @default.
W2810183748 cites W2736678869 @default.
W2810183748 cites W2741473053 @default.
W2810183748 cites W2753377532 @default.
W2810183748 cites W2756104891 @default.
W2810183748 cites W2756961217 @default.
W2810183748 cites W2763068092 @default.
W2810183748 cites W2770983302 @default.
W2810183748 cites W2774064504 @default.
W2810183748 cites W2774615233 @default.
W2810183748 cites W2791108977 @default.
W2810183748 cites W2791963957 @default.
W2810183748 cites W2792667443 @default.
W2810183748 cites W2797672515 @default.
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W2810183748 doi "https://doi.org/10.1016/j.ceramint.2018.06.215" @default.
W2810183748 hasPublicationYear "2018" @default.
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