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Prussian Blue Nanoplates for Potassium Ion Battery Cathode with High Capacity and High Energy Density

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Prussian blue analogues represent as a class of materials with an open framework structure and have been explored as the potential active materials for alkaline-ion batteries. Here, we present the synthesis of Prussian blue nanoplates (PBN) designed for use as high performance cathode materials in potassium-ion batteries (KIBs). PBNs were synthesized through a facile solution precipitation, yielding potassium-rich PBNs with horizontal crystals growth. The PBNs characterized with a larger particle size of 600 nm and a reduced specific surface area of 6.8 m2 g-1, compared to conventional prepare Prussian blue hexahedrons. Half-cell tests demonstrated that the PBNs exhibited a high gravimetric capacity of 152.5 mAh g-1 with a nominal voltage 3.952 V at a C-rate of 0.1 C, yielding an energy density of 602.7 Wh kg-1. Cycling tests demonstrated a capacity of 122.7 mAh g-1 and a nominal voltage of 3.923 V after 200 cycles at 0.2 C. In a full-cell configuration with graphite anodes, a gravimetric capacity changed from 134.1 mAh g-1 to 108.9 mAh g-1 after 100 cycles at 0.2 C, demonstrating a good cycling stability. This work provides a new insight into the electrochemical properties of PBNs and highlights their potential as high-performing cathode materials for KIBs.

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