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W2802960158 endingPage "174" @default.
W2802960158 startingPage "162" @default.
W2802960158 abstract "Abstract In this work, the porous MnCo2O4 nanorod arrays on three-dimensional Ni foam (PMCN@NF) as electrode material have been fabricated through a mild co-precipitating reaction at room temperature followed by a subsequent thermal treatment. The PMCN@NF electrode material have been characterized by XRD, SEM, TEM, EDS-mapping, BET and XPS technologies. The capacitive performances of the PMCN@NF electrode have been investigated by CV, GCD and EIS. This porous structure possesses an average diameter of ∼6.7 nm. BET interface area is measured to be 105.6 m2 g−1 for this PMCN@NF electrode. This PMCN@NF electrode exhibits the good capacitance of 845.6 F g−1 (tested condition: 1 ampere per gram, 1 A g−1). After 2000 cycles test, it shows a 90.2% retention for specific capacitance of the first test. The MnCo2O4//rGO asymmetric supercapacitor with the stable opening voltage of 1.6 V delivers a maximum energy density of 53.7 Wh kg−1 (when the power density is 1600 W kg−1). When this power density up to 8000 W kg−1, it still achieves an energy density of 31.6 Wh kg−1. The cyclic stability of this device after 5000 cycles can achieve an initial capacitance retention of 82.0%. These results indicate that the porous MnCo2O4 nanorod arrays electrode material is a promising functional material for advanced energy conversion and storage equipment." @default.
W2802960158 created "2018-05-17" @default.
W2802960158 creator A5009422583 @default.
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W2802960158 date "2018-06-01" @default.
W2802960158 modified "2023-10-17" @default.
W2802960158 title "Fabrication of the porous MnCo2O4 nanorod arrays on Ni foam as an advanced electrode for asymmetric supercapacitors" @default.
W2802960158 cites W1154153092 @default.
W2802960158 cites W1972462650 @default.
W2802960158 cites W1974164908 @default.
W2802960158 cites W1987341081 @default.
W2802960158 cites W1994532138 @default.
W2802960158 cites W2006358743 @default.
W2802960158 cites W2016044885 @default.
W2802960158 cites W2016464593 @default.
W2802960158 cites W2022316361 @default.
W2802960158 cites W2028102577 @default.
W2802960158 cites W2033113543 @default.
W2802960158 cites W2037502361 @default.
W2802960158 cites W2043629088 @default.
W2802960158 cites W2047915652 @default.
W2802960158 cites W2065641505 @default.
W2802960158 cites W2068999653 @default.
W2802960158 cites W2075618343 @default.
W2802960158 cites W2076799485 @default.
W2802960158 cites W2082257422 @default.
W2802960158 cites W2094136046 @default.
W2802960158 cites W2120423685 @default.
W2802960158 cites W2138537606 @default.
W2802960158 cites W2156315524 @default.
W2802960158 cites W2157447284 @default.
W2802960158 cites W2171557286 @default.
W2802960158 cites W2217941899 @default.
W2802960158 cites W2274628565 @default.
W2802960158 cites W2277698494 @default.
W2802960158 cites W2312714626 @default.
W2802960158 cites W2312964985 @default.
W2802960158 cites W2318820838 @default.
W2802960158 cites W2324177007 @default.
W2802960158 cites W2335069615 @default.
W2802960158 cites W2340997922 @default.
W2802960158 cites W2344095871 @default.
W2802960158 cites W2380873465 @default.
W2802960158 cites W2394486935 @default.
W2802960158 cites W2412562729 @default.
W2802960158 cites W2465111897 @default.
W2802960158 cites W2469737118 @default.
W2802960158 cites W2486792313 @default.
W2802960158 cites W2506586389 @default.
W2802960158 cites W2511287286 @default.
W2802960158 cites W2512195381 @default.
W2802960158 cites W2522884076 @default.
W2802960158 cites W2533750372 @default.
W2802960158 cites W2549632268 @default.
W2802960158 cites W2556425932 @default.
W2802960158 cites W2562102724 @default.
W2802960158 cites W2562775867 @default.
W2802960158 cites W2576311093 @default.
W2802960158 cites W2584337286 @default.
W2802960158 cites W2587786285 @default.
W2802960158 cites W2588254934 @default.
W2802960158 cites W2599692953 @default.
W2802960158 cites W2601357567 @default.
W2802960158 cites W2606803708 @default.
W2802960158 cites W2612336756 @default.
W2802960158 cites W2614609264 @default.
W2802960158 cites W2626075714 @default.
W2802960158 cites W2626746509 @default.
W2802960158 cites W2672716567 @default.
W2802960158 cites W2690059782 @default.
W2802960158 cites W2725052393 @default.
W2802960158 cites W2736015982 @default.
W2802960158 cites W2756120893 @default.
W2802960158 cites W2767807020 @default.
W2802960158 cites W2767977683 @default.
W2802960158 cites W2769665826 @default.
W2802960158 doi "https://doi.org/10.1016/j.actamat.2018.04.025" @default.
W2802960158 hasPublicationYear "2018" @default.
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