Facile and Rapid Synthesis of Porous Hydrated V(2)O(5) Nanoflakes for High-Performance Zinc Ion Battery Applications

Hydrated V(2)O(5) with unique physical and chemical characteristics has been widely used in various function devices, including solar cells, catalysts, electrochromic windows, supercapacitors, and batteries. Recently, it has attracted extensive attention because of the enormous potential for the high-performance aqueous zinc ion battery cathode. Although great progress has been made in developing applications of hydrated V(2)O(5), little research focuses on improving current synthesis methods, which have disadvantages of massive energy consumption, tedious reaction time, and/or low efficiency. Herein, an improved synthesis method is developed for hydrated V(2)O(5) nanoflakes according to the phenomenon that the reactions between V(2)O(5) and peroxide can be dramatically accelerated with low-temperature heating. Porous hydrated V(2)O(5) nanoflake gel was obtained from cheap raw materials at 40 °C in 30 min. It shows a high specific capacity, of 346.6 mAh/g, at 0.1 A/g; retains 55.2% of that at 20 A/g; and retains a specific capacity of 221.0 mAh/g after 1800 charging/discharging cycles at 1 A/g as an aqueous zinc ion battery cathode material. This work provides a highly facile and rapid synthesis method for hydrated V(2)O(5), which may favor its applications in energy storage and other functional devices.