2-methylimidazole-derived Ni-Co layered double hydroxide nanosheets as high rate capability and high energy density storage material in hybrid supercapacitors
Article
Article Title | 2-methylimidazole-derived Ni-Co layered double hydroxide nanosheets as high rate capability and high energy density storage material in hybrid supercapacitors |
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ERA Journal ID | 40638 |
Article Category | Article |
Authors | Wang, Teng (Author), Zhang, Shengli (Author), Yan, Xingbin (Author), Lyu, Miaoqiang (Author), Wang, Lianzhou (Author), Bell, John (Author) and Wang, Hongxia (Author) |
Journal Title | ACS Applied Materials and Interfaces |
Journal Citation | 9 (18), pp. 15510-15524 |
Number of Pages | 15 |
Year | 2017 |
Publisher | American Chemical Society |
Place of Publication | United States |
ISSN | 1944-8244 |
1944-8252 | |
Digital Object Identifier (DOI) | https://doi.org/10.1021/acsami.7b02987 |
Web Address (URL) | https://pubs.acs.org/doi/10.1021/acsami.7b02987 |
Abstract | A new method based on one-step solvothermal reaction is demonstrated to synthesize ultrathin Ni–Co layered double hydroxide (LDH) nanosheets, which grow directly on a flexible carbon fiber cloth (NiCo-LDH/CFC). Through using 2-methylimidazole as complex and methanol as solvent, the as-prepared NiCo-LDH/CFC shows a (003) facet preferential growth and an expanded interlayer spacing structure, resulting in a unique 3D porous nanostructure with a thickness of nanosheets of around 5–7 nm that shows high energy storage performance. By controlling the ratio of Ni/Co = 4:1 in the precursor solution, the electrode shows a specific capacitance of 2762.7 F g–1 (1243.2 C g–1) at a current density of 1 A g–1. Nevertheless, the optimal composition is obtained with Ni/Co = 1:1, which produces a specific capacitance of 2242.9 F g–1 (1009.3 C g–1) at 1 A g–1 and shows an excellent rate capability with 61% of the original capacitance being retained at a current density of 60 A g–1. The hybrid supercapacitor (HSC) based on the NiCo-LDH/CFC exhibits a maximum energy density of 59.2 Wh kg–1 and power densities of 34 kW kg–1, respectively. Long-term stability test shows that 82% of the original capacitance of the HSC remains after 5000 cycles. Importantly, the electrochemical performance of the solid-state flexible supercapacitors based on the prepared NiCo-LDH/CFC electrode showed a negligible change when the device was bent up to 180°. The performance of synthesized NiCo-LDH/CFC indicates the great potential of the material for delivering both high energy density and high power density in energy storage devices. |
Keywords | hybrid supercapacitor; NiCo-LDH nanosheets; binder-free; flexible; carbon fiber cloth; atomic thickness |
ANZSRC Field of Research 2020 | 349999. Other chemical sciences not elsewhere classified |
Public Notes | Files associated with this item cannot be displayed due to copyright restrictions. |
Byline Affiliations | Queensland University of Technology |
Chinese Academy of Sciences, China | |
University of Queensland | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q5x49/2-methylimidazole-derived-ni-co-layered-double-hydroxide-nanosheets-as-high-rate-capability-and-high-energy-density-storage-material-in-hybrid-supercapacitors
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