Journal
JOURNAL OF ENERGY STORAGE
Volume 61, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.est.2023.106813
Keywords
supercapattery; nickel-copper phosphate; binder-free; battery-type electrode; microwave-assisted hydrothermal
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This study presents the fabrication of binder-free nickel-copper phosphate (NCP) battery-type electrode using microwave-assisted hydrothermal method. The NCP electrode with Ni:Cu ratio of 3:1 exhibited excellent electrochemical performance, achieving the highest specific capacity, lowest resistance, and outstanding stability. The fabricated Ni3-Cu-P//AC supercapattery showed a higher energy density and maintained 91.3% capacity after 3000 cycles.
This study reports the fabrication of binder-free nickel-copper phosphate (NCP) battery-type electrode via microwave-assisted hydrothermal method for the first time. This fabrication method involved microwave heating which significantly reduced the reaction time compared to the conventional hydrothermal method. The NCP electrodes with different precursor ratios (Ni:Cu of 4:0, 3:1, 1:1, 1:3, and 0:4) were fabricated at 90 degrees C for 12.5 min. Among all NCP binder-free electrodes, Ni3-Cu-P electrode (Ni:Cu of 3:1) exhibited superior electrochemical performance by showing the highest specific capacity of 1030.8 C/g and areal capacity of 0.72 C/cm(2) at 3 A/g, and the lowest charge transfer (25.9 Omega) and ion diffusion resistances. These can be explained by the fact that Ni3-Cu-P electrode had a small-sized microsphere electrode material with an amorphous structure deposited on the nickel foam. The small-sized microsphere provided a larger surface area for faradaic reaction. Besides, the amorphous structure offered more electrochemical sites for faradaic reaction. Therefore, it was selected as the battery-type electrode for supercapattery. The Ni3-Cu-P//AC supercapattery delivered a higher energy density of 51.6 Wh/kg at 2.25 kW/kg power density, and outstanding stability with 91.3 % capacity retention after 3000 cycles.
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