2011
DOI: 10.1002/aenm.201100256
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Manganese Oxide/Carbon Aerogel Composite: an Outstanding Supercapacitor Electrode Material

Abstract: Manganese oxide/carbon aerogel composite electrodes are prepared by a self‐limiting anodic‐electrochemical deposition of manganese oxide into a binder‐enriched carbon aerogel layer, drop‐cast on a graphite substrate, using 0.1 M Mn(CH3COO)2·4H2O as the electrolyte. Manganese oxide grows in the form of thin nanofibers along the backbone of the carbon aerogel, leaving adequate working space for the electrolyte and enabling a fuller extent of the utilization of the manganese oxide to make the composite an outstan… Show more

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Cited by 190 publications
(86 citation statements)
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“…It is very exciting to notice from Figure 4 b that the fabricated supercapacitors based on graphene-bridged V 2 O 3 /VO x core-shell nanocomposite structure can work at a rate as high as 50 V s −1 . This rate is 1-2 orders higher than typically reported 0.1-1 V s -1 rates of oxide pseudocapacitive ECs, [ 23,28,31 ] and is higher even than conventional active carbon-based EDLCs. The rate of our ECs is approaching ultrahigh-power micrometer-sized EDLCs based on onion-like carbon [ 42 ] or perpendicularly-oriented graphene, [ 6 ] but with much higher capacitance and energy density.…”
Section: +mentioning
confidence: 60%
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“…It is very exciting to notice from Figure 4 b that the fabricated supercapacitors based on graphene-bridged V 2 O 3 /VO x core-shell nanocomposite structure can work at a rate as high as 50 V s −1 . This rate is 1-2 orders higher than typically reported 0.1-1 V s -1 rates of oxide pseudocapacitive ECs, [ 23,28,31 ] and is higher even than conventional active carbon-based EDLCs. The rate of our ECs is approaching ultrahigh-power micrometer-sized EDLCs based on onion-like carbon [ 42 ] or perpendicularly-oriented graphene, [ 6 ] but with much higher capacitance and energy density.…”
Section: +mentioning
confidence: 60%
“…We report synthesis of such composite nanostructure using a facile solvothermal method followed by hydrogen thermal processing. The fabricated coin cell-type supercapacitor exhibited a C-D rate as high as 50 V s -1 , which is 1-2 orders higher than typically reported 0.1-1 V s -1 rates of oxide pseudocapacitive ECs, [ 23,28,31 ] and is also higher than conventional active carbon-based EDLCs. Increasing the energy density using the pseudocapacitance effect and at the same time obtaining extremely high C-D rate will enable such ECs to compete with batteries and conventional electrolytic capacitors in a number of applications.…”
Section: +mentioning
confidence: 94%
“…Supercapacitors can be classied into two types, electrical double-layer capacitors and pseudocapacitors, in terms of charge storage mechanisms. 26 Carbon materials 16,27 are promising electrode materials for electrical double-layer capacitors, which have high power density and long cycle life but suffer from relatively low capacitance. Transition metal oxides have been studied as pseudocapacitor electrodes because of their much higher capacitances as compared to carbon materials.…”
Section: 25mentioning
confidence: 99%
“…Up to now, a number of exible manganese oxide/carbon hybrid structures have been investigated for supercapacitors by depositing manganese oxides onto various carbon materials. 26,[28][29][30][31] In those studies, however, the electrochemical performance of manganese oxide/carbon hybrid electrodes was not studied for nonliquid electrolytes, which are more suitable for exible and solid-state devices. Recently, Yuan et al have fabricated exible solid-state supercapacitors based on MnO 2 /carbon hybrid electrodes and phosphoric acid-polyvinyl alcohol (H 3 PO 4 -PVA) gel electrolyte, which provide an energy density of 4.8 W h À1 kg À1 .…”
Section: -29mentioning
confidence: 99%
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