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Cited by 175 publications
(45 citation statements)
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“…Therefore, the high specic capacitance and rate capability of as-synthesized NF/ZnOx were attributed to the exclusive porous architecture, which could be useful to shorten the ion-diffusion pathways, enhance the spaces for ion-buffer storage, and offer effective capacitance. The specic capacitance results were higher than the recently reported values of ZnO-based electrodes, such as Co 3 O 4 @ZnO nanoheterostructrues (415 F g À1 at 1 A g À1 ), 34 ZnCo 2 O 4 microspheres (542.7 F g À1 at 1 A g À1 ), 35 ZnO nanoakes (260 F g À1 at 2 A g À1 ), 36 ZnCo 2 O 4 nanostructure (776.2 F g À1 at 1 A g À1 ) 37 and ZnO@Co 3 O 4 core/shell heterostructure (857.7 F g À1 at 1 A g À1 ), 38 respectively. Moreover, the cycling stability of the NF/ZnOx was examined at a current density of 22 mA g À1 .…”
Section: Resultscontrasting
confidence: 73%
“…Therefore, the high specic capacitance and rate capability of as-synthesized NF/ZnOx were attributed to the exclusive porous architecture, which could be useful to shorten the ion-diffusion pathways, enhance the spaces for ion-buffer storage, and offer effective capacitance. The specic capacitance results were higher than the recently reported values of ZnO-based electrodes, such as Co 3 O 4 @ZnO nanoheterostructrues (415 F g À1 at 1 A g À1 ), 34 ZnCo 2 O 4 microspheres (542.7 F g À1 at 1 A g À1 ), 35 ZnO nanoakes (260 F g À1 at 2 A g À1 ), 36 ZnCo 2 O 4 nanostructure (776.2 F g À1 at 1 A g À1 ) 37 and ZnO@Co 3 O 4 core/shell heterostructure (857.7 F g À1 at 1 A g À1 ), 38 respectively. Moreover, the cycling stability of the NF/ZnOx was examined at a current density of 22 mA g À1 .…”
Section: Resultscontrasting
confidence: 73%
“…With continuous increase in the contribution of renewable energies to the global energy demands, energy conversion / storage systems such as fuel cells [1][2][3], batteries [4] and electrochemical capacitors (EC's) [5] have attracted considerable research interest in recent years. Due to their advantageous properties such as superior power capability [6], good cycle ability [7] and excellent charge / discharge competency [8], additional emphasis has been placed on research and development of EC's also known as supercapacitors or ultracapacitors.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, ternary ZnCo 2 O 4 has attracted a great amount of research attention because its structure, a normal spinel structure with Zn 2+ occupying the tetrahedral sites in the cubic spinel and Co 3+ occupying the octahedral sites, renders ZnCo 2 O 4 nanomaterials with high theoretical specic capacitances, excellent electrical conductivities, and rich active sites for redox reactions. [5][6][7] Meanwhile, it has the advantages of abundant availability, low cost and environmental friendliness. 8 However, it also presents problems, such as a low surface area and a large decrease in performance following long-term utilization.…”
Section: Introductionmentioning
confidence: 99%