Lithium-ion transport in inorganic active fillers used in PEO-based composite solid electrolyte sheets.
Young-Woong SongKookjin HeoJongkwan LeeDahee HwangMin-Young KimSu-Jin KimJaekook KimJinsub LimPublished in: RSC advances (2021)
In this study, we evaluated the properties exhibited by a composite solid electrolyte (CSE) prepared via tailoring the particle size of an active filler, Li 6.4 La 3 Zr 1.4 Ta 0.6 O 12 (LLZTO). The average particle size was reduced to 2.53 μm via ball milling and exhibited a specific surface area of 3.013 m 2 g -1 . Various CSEs were prepared by combining PEO and LLZTO/BM-LLZTO. The calculated lithium ionic conductivity of the BM-LLZTO CSE was 6.0 × 10 -5 S cm -1 , which was higher than that exhibited by the LLZTO CSE (4.6 × 10 -5 S cm -1 ). This result was confirmed via 7 Li nuclear magnetic resonance (NMR) analysis, during which lithium-ion transport pathways varied as a function of the particle size. NMR analysis showed that when BM-LLZTO was used, the migration of Li ions through the interface occurred at a fast rate owing to the small size of the constituent particles. During the Li/CSEs/Li symmetric cell experiment, the BM-LLZTO CSE exhibited lower overvoltage characteristics than the LLZTO CSE. A comparison of the characteristics exhibited by the LFP/CSEs/Li cells confirmed that the cells using BM-LLZTO exhibited high discharge capacity, rate performance, and cycling stability irrespective of the CSE thickness.