Impact of thermal treatment on the Li-ion transport, interfacial properties, and composite preparation of LLZO garnets for solid-state electrolytes

Solid state batteries are the next generation of safe energy storage devices offering high energy and power. Li7La3Zr2O12 garnets are fast Li-ion conductors and promising electrolytes to be used in solid-state batteries. However, they react with humid air to form LiOH and Li2CO3, reducing the ionic conductivity. In this work, the effect of heat treatment on local Li mobility in LLZO and the chemical evolution and phase transitions during the heating are investigated by a combination of solid state NMR, Raman, and XRD diffraction techniques. The results show that the activation energy for Li jumps obtained by variable temperature solid state NMR decreases after heat treatment at 750 degrees C and the Li dynamics are comparable to those of sintered pellets. Additionally, we show that the pretreatment of powders is an effective approach for obtaining garnet-rich composite electrolytes with better flexibility and garnet-polymer interphases, improving the prospects of this material towards processing.

Automated summary

In this study, the chemical evolution and phase transitions of LLZO during heat treatment were investigated using solid state NMR, Raman, and XRD diffraction techniques. The results showed that the activation energy for Li jumps decreased after heat treatment, indicating improved Li dynamics. Furthermore, the pretreatment of powders was found to be an effective method for obtaining garnet-rich composite electrolytes with better flexibility and garnet-polymer interphases, enhancing the prospects of this material for processing.