A Multilayer Ceramic Electrolyte for All-Solid-State Li Batteries

Despite of the good stability with Li-metal, Li6.75La3Zr1.75Ta0.25O12(LLZTO) suffers from large interfacial resistance and severe Li-metal penetration. Herein, a dual layer ceramic electrolyte of Ti-doped LLZTO(Ti-LLZTO)/LLZTO was developed, with the reducible Ti-LLZTO layer contacting Li-metal and the LLZTO layer contacting cathode. The identical crystal structures of Ti-LLZTO and LLZTO enables a seamless contact and a barrierless Li+ transport between them. The densities of Ti-LLZTO pellets are higher than that of LLZTO. With an in situ reduction of Ti-LLZTO by Li-metal, the interfacial wettability was improved and a mixed ion-electron conducting layer was created. Both features help to reduce defects/pores on interface and homogenize the interfacial ionic/electronic flux, facilitating the reduction of interfacial resistance and suppression of dendrites. With the help of Ti-LLZTO layer, long-term stable lithium plating/stripping was reached in an areal capacity of 3.0 mAh cm(-2).

Automated summary

The dual layer ceramic electrolyte of Ti-doped LLZTO/Ti-LLZTO and LLZTO shows improved interface structure and higher density, leading to enhanced interaction between Li-metal and electrolyte, reduction of interface resistance, and suppression of dendrite formation.