Authors: Lin Zhang, Jie Xu, Laiping Li, Haoran Fei, Qi Wu, Haoxiang Yu, Lei Yan, Jie Shu, Liyuan Zhang
Published: 2025-03-17
Source: Full article
AbstractPotassium metal (K) electrodes have attracted much attention as one of the most promising anode materials in potassium metal batteries. Nevertheless, dendrite growth and unstable solid electrolyte interface (SEI) have seriously hindered the practical application of potassium‐metal anodes. Therefore, to address the aforementioned issue, a brand‐new method is proposed: electrodeposition to construct a KF‐rich artificial SEI layer, which can improve the stability and cycle time of the K metal anode. The homogeneous KF‐rich SEI layer is formed via an in situ reaction between fresh K metal and the electrolyte additive fluoroethylene carbonate (FEC) during electrodeposition. This exerts tremendous effects on protecting the electrode and inhibiting the growth of dendrites. With the uniform and robust SEI layer, the potassium‐metal symmetric battery has been stably cycled for more than 1400 h in a conventional carbonate electrolyte (0.8 m KPF6‐based electrolyte (EC:DEC = 1:1, v/v)). In addition, K||Prussian blue (PPB) batteries with this conventional carbonate electrolyte can be operated for more than 200 cycles with an average Coulombic efficiency of 99.4%. This study sheds light on the construction mechanism of the KF‐rich artificial SEI layer on K‐metal anodes.