Download This PaperA Rapid Pressureless Sintering Strategy for Llzto Ceramic Solid Electrolyte Sheets Prepared by Tape Casting
23 Pages Posted: 9 Aug 2024
Abstract
Garnet-type electrolytes are regarded as one of the most promising solid-state electrolytes (SSEs) for lithium-ion batteries due to their potential advantages in terms of energy density, electrochemical stability and safety. To achieve the maximum energy density, it is necessary to ensure that the electrolyte layer is as thin as possible. Nevertheless, thin sheet SSE is more challenging to sinter than pellet due to the greater lithium volatilization from the high surface/volume ratio. Garnet-type SSE (Li6.5La3Zr1.5Ta0.5O12, LLZTO) green tape was prepared by the tape-casting technique. The effects of supporter, sintering temperature and dwell time on the density, microstructure and ionic conductivity of thin sheet were investigated. A ceramic SSE sheet with a thickness of 173 μm, a relative density of 97.2%, an ionic conductivity of 2.02 ×10-4 at 25°C and an activation energy of 0.25eV, was achieved using a rapid pressureless sintering at 1250°C for 25 minutes with a MgO supporter. This work offers insights into the practical production of LLZTO sheets.
Keywords: Garnet-based electrolyte, Li6.5La3Zr1.5Ta0.5O12, Tape casting, Sheet solid state electrolyte, Densification
Suggested Citation: Suggested Citation