Xia-yuan Liu scite author profile

Hierarchical NiCo2O4@NiCo2O4 core/shell nanoflake arrays on nickel foam for high-performance supercapacitors are fabricated by a two-step solution-based method which involves in hydrothermal process and chemical bath deposition. Compared with the bare NiCo2O4 nanoflake arrays, the core/shell electrode displays better pseudocapacitive behaviors in 2 M KOH, which exhibits high areal specific capacitances of 1.55 F cm(-2) at 2 mA cm(-2) and 1.16 F cm(-2) at 40 mA cm(-2) before activation as well as excellent cycling stability. The specific capacitance can achieve a maximum of 2.20 F cm(-2) at a current density of 5 mA cm(-2), which can still retain 2.17 F cm(-2) (98.6% retention) after 4000 cycles. The enhanced pseudocapacitive performances are mainly attributed to its unique core/shell structure, which provides fast ion and electron transfer, a large number of active sites, and good strain accommodation.

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Self-assembly of Si/honeycomb reduced graphene oxide composite film as a binder-free and flexible anode for Li-ion batteries

Tang

Liu

et al. 2014

J. Mater. Chem. A

115

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Facile synthesis of Ni-coated Ni2P for supercapacitor applications

et al. 2013

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Xia-yuan Liu

Hierarchical NiCo₂O₄@NiCo₂O₄ Core/Shell Nanoflake Arrays as High-Performance Supercapacitor Materials

Self-assembly of Si/honeycomb reduced graphene oxide composite film as a binder-free and flexible anode for Li-ion batteries

Facile synthesis of Ni-coated Ni2P for supercapacitor applications

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Xia-yuan Liu

Hierarchical NiCo2O4@NiCo2O4 Core/Shell Nanoflake Arrays as High-Performance Supercapacitor Materials

Self-assembly of Si/honeycomb reduced graphene oxide composite film as a binder-free and flexible anode for Li-ion batteries

Facile synthesis of Ni-coated Ni2P for supercapacitor applications

Contact Info

Product

Resources

About

Hierarchical NiCo₂O₄@NiCo₂O₄ Core/Shell Nanoflake Arrays as High-Performance Supercapacitor Materials