Journal
JOURNAL OF MATERIALS CHEMISTRY
Volume 21, Issue 47, Pages 19093-19100Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c1jm14031k
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Funding
- Shanghai Natural Sciences Foundation [11ZR1411000]
- PCSIRT
- China NSFC [61176108]
- City University of Hong Kong [7008009]
- Hong Kong Research Grants Council (RGC) [CityU 112510]
- [10520704400]
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Silicon microchannel plates with a large surface area coated with a nickel layer are excellent templates for miniature supercapacitors. Three-dimensional Si-MCP/Ni/Ni(OH)(2) and Si-MCP/Ni/Co(OH)(2) sandwiched structures are produced with the Ni(OH)(2) and Co(OH)(2) thin films serving as the active materials in the supercapacitors which consist of microcrystalline and nano-sized flakes or rods. The specific capacitances derived from the CV and typical charge/discharge curves exhibit good consistency. The highest specific capacitance of 3.75 F cm(-2) is obtained at a discharge current density of 10 mA cm(-2) from Si-MCP/Ni/Ni(OH)(2) and 1.46 F cm(-2) from Si-MCP/Ni/Co(OH)(2) at a scanning rate of 10 mV s(-1). At high rates, the specific capacitances measured from both samples are relatively low, but the excellent capacitive properties are restored at low rates after being subjected to several high rate charge/discharge cycles. Owing to the large specific capacitance per unit area, good cycling performance, small volume, and unique three-dimensional structure, these electrodes are excellent supercapacitors suitable for secondary power sources. In addition, the potential of nickel coated Si-MCPs as templates for miniaturization and integration of devices in practical applications is discussed and demonstrated.
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