Abstract
Abstract Graphene decorated NiO nanowalls grown on porous Ni foam (NiO-G-Ni) are fabricated via facile electrochemical corrosion and subsequent annealing treatment. High pseudocapacitive contribution for charge storage is triggered in the NiO-G-Ni, with hierarchical porous architecture improving lithium ion diffusion and graphene backbone facilitating electron transfer. The NiO-G-Ni undergoes novel electrochemical reconstruction upon cycling, while nano-size of NiO and graphene decoration are well kept. As a result, the NiO-G-Ni exhibits superior cycle stability. It delivers initial charge/discharge capacity of 936/734 mAh g −1 at 125 mA g −1 . The charge/discharge capacity decrease little in the first few cycles and then gradually recover and maintain at 732/722 mAh g −1 after 150 cycles.
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