Potassium Polyacrylate-Based Gel Polymer Electrolyte for Practical Zn-Ni Batteries

Because of their high theoretical value of volumetric energy density, excellent rate performance, and high level of safety, zinc-nickel batteries (ZNBs) show potential applications for uninterrupted power supply (UPS) systems. However, despite all the advantages of ZNBs, the commercial application of ZNBs has been prevented by their short lifetime caused by the shape change, the corrosion, and the dendrite formation of the Zn anode. In this work, we proposed a flexible and durable potassium polyacrylate (PAAK)-KOH gel polymer electrolyte (GPE) prepared in a very simple way to solve the above problems of the Zn anode. The obtained highly porous gel electrolyte showed higher water retention, satisfying ionic conductivity (0.918 S cm(-1)), and a broad electrochemical stable voltage window. By providing a stable and homogeneous electrode/electrolyte interface for the Zn anode, the gel electrolyte can inhibit the uneven deposition and dendrite formation. As a result, the gel electrolyte greatly prolonged the cycling life to 776 h. In addition, because of the considerably batter corrosion resistance of the Zn anode in the PAAK-KOH GPE, the ZNB with gel electrolyte also exhibited a superior shelf life of more than 431 h and a superior cycling performance under float charge for more than 400 h at 60 degrees C. This work demonstrates that the gel electrolyte with a simple preparation method is suitable for large-scale practical production and can be successfully used in Zn-Ni batteries as an electrolyte exhibiting excellent performance.

Automated summary

In this work, a flexible and durable gel electrolyte was proposed to solve the problems of shape change and dendrite formation in zinc-nickel batteries. The gel electrolyte exhibited high ionic conductivity and a broad voltage window, leading to prolonged cycling life.