Improved cycling stability and lithium utilization in trilayer Al-LLZO revealed by Electrochemical cycling performance
Abstract
Garnet-type Li6.25Al0.25La3Zr2O12 (Al-LLZO) solid electrolytes are promising for all-solid-state batteries but are limited by interfacial resistance. In this work, dense and graded tri-layer Al-LLZO electrolytes were fabricated and tested in Li/Al-LLZO/NMC(111) full cells. After 25 cycles, the tri-layer cell delivered discharge capacity of 55 mAhg-1, nearly twice that of the dense Al-LLZO (27 mAhg-1). EIS showed lower initial interfacial resistance (373 ) and improved stability. SEM confirmed a porous-dense-porous structure, while NRA revealed enhanced near-surface lithium (75%) compared to dense Al-LLZO (48%). These results highlight the role of microstructural grading in improving lithium distribution and cell performance.
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