NH4F assisted and morphology-controlled fabrication of ZnCo2O4 nanostructures on Ni-foam for enhanced energy storage devices

By Cheng, Lin; Xu, Min; Zhang, Qingsong; Li, Guochang; Chen, Jinxi; Lou, Yongbing
Published in Journal of Alloys and Compounds 2019

Abstract

Four morphology-dependent ZnCo2O4 nanoarchitectures on Ni-foam with the aid of auxiliary reagent ammonium fluoride (NH4F) were facilely synthesized via a simple hydrothermal method and a consequent annealing process. With the gradual increase of NH4F, there was a morphological transformation from nanoflake, through nanowire@nanoflake and hetero-nanowire, to hierarchical leaf-like. The BET surface area and the specific capacitance at 1 A g?1 were both gradually improved, from 63.9 to 89.3 m2 g?1 and from 600 to 1700 F g?1, respectively, during the process of morphological change. The hierarchical leaf-like ZnCo2O4 had the lowest charge transfer resistance and the highest capacitive behavior, as well as considerable cycling performance (110% after 8000 cycles at 2 A g?1). A full button cell combining both anode material (AC) and cathode material (leaf-like ZnCo2O4) displayed satisfying energy density (63 Wh kg?1) and power density (795.5 W kg?1) as well as firm cycling performance (98% retention after 4000 cycles). The successful illumination of LEDs by the constructed full cell implied the promising practicability for future industrial green energy-storage devices usage of the ZnCo2O4 nanomaterials.

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