Interconnected porous MnO nanoflakes for high-performance lithium ion battery anodes
Xiuwan LiDan LiLi QiaoXinghui WangXiaolei SunPeng WangDeyan He
Abstract
Interconnected porous MnO nanoflakes on nickel foam were prepared by a reduction of hydrothermal synthesized MnO2 precursor in hydrogen. The architectures were applied to lithium ion batteries as electrodes. Compared with the as-synthesized MnO2 anode, porous MnO nanoflakes showed superior cycling stability and rate performance. A high reversible capacity of 568.7 mA h g(-1) was obtained at a current density of 246 mA g(-1) for the second discharge. It retained a capacity of 708.4 mA h g(-1) at the 200th charge-discharge cycle after cycling with various current densities up to 2460 mA g(-1) and delivered a capacity of 376.4 mA h g(-1) at a current density as high as 2460 mA g(-1), indicating that the architecture of the porous MnO nanoflakes grown on Ni foam is a promising electrode for lithium ion batteries.
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