2018
DOI: 10.1002/cplu.201800549
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A MnCo2O4@NiMoO4 Core‐Shell Composite Supported on Nickel Foam as a Supercapacitor Electrode for Energy Storage

Abstract: A MnCo2O4@NiMoO4 composite was synthesized on nickel foam by a two‐step method. The composite has a core‐shell structure in which MnCo2O4 nanoneedles are wrapped by NiMoO4 nanoflakes. The MnCo2O4@NiMoO4/Ni foam is applied as a binder‐free electrode for supercapacitors and it achieves a specific capacitance of up to 1718 F g−1 at a current density of 1 A g−1, and 84 % capacitance retention after 6000 charge‐discharge cycles. The capacitance of the MnCo2O4@NiMoO4 composite is much higher than MnCo2O4 nanoneedles… Show more

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Cited by 39 publications
(14 citation statements)
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“…9f) delivers a specic capacitance of 76 F g À1 with an energy density of 75 W h kg À1 at a power density of 125 W kg À1 . The electrochemical performance of the binary metal oxide reported in this work compares well with similar materials reported in the literature like Co 3 O 4 (57 F g À1 ), 40 NiCo 2 O 4 (64 F g À1 ), 33 Co-Ni oxides (82 F g À1 ), 1 CoMoO 4 (25 F g À1 ), 41 NiMoO 4 (100 F g À1 ), 42 and other ternary metal oxides. 43 Furthermore, the device constructed using the binary metal oxide exhibited long-term stability, reproducing a similar linear charge-discharge curve aer 1000 cycles (Fig.…”
Section: Two-electrode Conguration (Hybrid Device)supporting
confidence: 87%
“…9f) delivers a specic capacitance of 76 F g À1 with an energy density of 75 W h kg À1 at a power density of 125 W kg À1 . The electrochemical performance of the binary metal oxide reported in this work compares well with similar materials reported in the literature like Co 3 O 4 (57 F g À1 ), 40 NiCo 2 O 4 (64 F g À1 ), 33 Co-Ni oxides (82 F g À1 ), 1 CoMoO 4 (25 F g À1 ), 41 NiMoO 4 (100 F g À1 ), 42 and other ternary metal oxides. 43 Furthermore, the device constructed using the binary metal oxide exhibited long-term stability, reproducing a similar linear charge-discharge curve aer 1000 cycles (Fig.…”
Section: Two-electrode Conguration (Hybrid Device)supporting
confidence: 87%
“… [47–49] More importantly, the Mo 3d peaks of D−H−NiMoO 4 @CoMoO 4 were positively shifted relative to H−NiMoO 4 @CoMoO 4 (Figure 3c), suggesting the formation of low oxidation states of molybdenum given the partial reduction of Mo 6+ and the incremental concentration of O‐defects [35,40,41] . Alongside the above, a peak at 531.2 eV (Figure 3d) was noted, which could be attributed to the O‐defect with a lower oxygen coordination, as well as a peak at 532.5 eV which reflects O−H, likely caused by the presence of surface‐absorbed water (2NaH 2 PO 2 ⋅H 2 O PH 3 (g)↑+Na 2 HPO 4 (s)+2H 2 O (g)↑) [36,40,50] . In comparison with D−H−NiMoO 4 @CoMoO 4 , the peak associated with O‐defect sites (531.2 eV) is evidently heightened in H−NiMoO 4 @CoMoO 4 (Figure 3e), demonstrating an incremental concentration of O‐defect sites after phosphating surface heat‐treatment [51] .…”
Section: Resultsmentioning
confidence: 86%
“…The loss in capacity is mainly attributed to the diffusion‐controlled response and this is further degraded at higher sweep rates. The delivered stable capacitance of the fabricated hybrid device (95 F/g after 1000 cycles), which is compares favourably with that of similar materials reported for battery‐supercapacitor hybrid devices in the literature like Co 3 O 4 (57 F/g), NiCo 2 O 4 (64 F/g), Co – Ni oxides (82 F/g), CoMoO 4 (25 F/g), and NiMoO 4 (100 F/g), and other ternary metal oxides . Importantly, these reported materials have not used eggshell as anode.…”
Section: Resultsmentioning
confidence: 99%