High critical currents for dendrite penetration and voiding in potassium metal anode solid-state batteries

Potassium metal anode solid-state cells with a K-beta-alumina ceramic electrolyte are found to have relatively high critical currents for dendrite penetration on charge of approximately 4.8 mA/cm(2), and voiding on discharge of approximately 2.0 mA/cm(2), at 20 degrees C under 2.5 MPa stack-pressure. These values are higher than generally reported in the literature under comparable conditions for Li and Na metal anode solid-state batteries. The higher values for potassium are attributed to its lower yield strength and its readiness to creep under relatively low stack-pressures. The high critical currents of potassium anode solid-state batteries help to confirm the importance of the metal anode mechanical properties in the mechanisms of dendrite penetration and voiding.

Automated summary

Potassium metal anode solid-state cells have higher critical currents for dendrite penetration and voiding compared to lithium and sodium metal anode solid-state batteries under similar conditions. The higher values of potassium are attributed to its lower yield strength and its readiness to creep under relatively low stack-pressures.