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Hierarchically porous Co3O4 film is prepared by a cathodic electrodeposition via liquid crystalline template. The as-prepared Co3O4 film has a net-like structure of interconnected nanoflakes with a thickness of 15–20 nm. Interestingly, the Co3O4 nanoflakes possess mesoporous walls ranging from 2 to 3 nm. As cathode material for supercapacitors, the hierarchically porous Co3O4 film exhibits superior supercapacitor performances with high specific capacitances (443 F g− 1 at 2 A g− 1 and 334 F g− 1 at 40 A g− 1) as well as excellent cycle life, making it suitable for high-performance supercapacitor application. The improved supercapacitor performances are due to its unique hierarchically porous morphological characteristics, which provide fast ion and electron transfer, large reaction surface area, resulting in fast reaction kinetics.  相似文献
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Use of an on-column frit structure, constructed by sintering a mixture of glass powders, makes it possible to ground a fused-silica capillary on its side prior to its outlet. Electroosmotic pressure permits convenient sample collection. We illustrate the use of this device by depositing the eluent in a continuous manner on a moving surface. This provides a permanent record of the separated species in a mixture.  相似文献
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Nickel foam-supported porous NiO film was prepared by a chemical bath deposition technique, and the NiO/polyaniline (PANI) film was obtained by depositing the PANI layer on the surface of the NiO film. The NiO film was constructed by NiO nanoflakes, and after the deposition of PANI, these nanoflakes were coated by PANI. As an anode for lithium ion batteries, the NiO/PANI film exhibits weaker polarization as compared to the NiO film. The specific capacity after 50 cycles for NiO/PANI film is 520 mAh g−1 at 1 C, higher than that of NiO film (440 mAh g−1). The improvement of these properties is attributed to the enhanced electrical conduction and film stability of the electrode with PANI.  相似文献
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