Status of rechargeable potassium batteries

Abstract

Future renewable energy integrated grid systems require rechargeable batteries with low cost, high safety, and long cycle life. The much higher abundance of sodium and potassium compared to lithium in earth crust indicates that rechargeable sodium and potassium batteries are attractive replacements for lithium-ion batteries. Rechargeable potassium batteries have gained tremendous attention during the past decade. However, the development of rechargeable potassium batteries is still in its infancy. This review summarizes the recent technological developments in rechargeable potassium batteries. First, we summarize the latest achievements of active materials design, mechanistic understanding, and exploration of new active materials. We propose new directions in tuning the architecture and enhancing the electrochemical performances of high-performance anodes and cathodes. Second, we also summarize the advances that have been achieved in the new configurations of rechargeable potassium battery systems (potassium-ion capacitors, potassium dual ion batteries, potassium-sulfur batteries, and potassium-oxygen batteries). Finally, we propose future directions and design strategies that could be employed to advance rechargeable potassium batteries toward commercial applications. In this review, a large family of rechargeable batteries based on potassium as charge carrier are summarized. Rechargeable potassium ion batteries include potassium-ion batteries, potassium-ion capacitors, potassium-ion-based dual ion batteries, potassium-sulfur batteries, and potassium-oxygen batteries. Future directions and design strategies that could be employed to advance rechargeable potassium batteries toward commercial applications are proposed. • Rechargeable potassium ion battery as a promising rechargeable battery system. • Current status and future research trends of rechargeable potassium batteries. • Strategies for developing practical anodes and cathodes for potassium batteries. • Recent advances of different configurations of rechargeable potassium batteries.