Journal
ACS APPLIED ENERGY MATERIALS
Volume 6, Issue 8, Pages 4363-4371Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsaem.3c00396
Keywords
solid-state lithium-metal batteries; interface compatibility; ceramic electrolyte; Li1; 5Al0; 5Ge1; gel protective layer
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This study presents a gel polymer electrolyte (GPE) interlayer to stabilize the Li|LAGP interface and address the challenges caused by side reactions and poor thermal stability. The GPE, composed of a solvate ionic liquid and a hyperbranched polyanionic copolymer, ensures excellent compatibility and protection between LAGP and Li metal anode. Additionally, the introduction of a solvate ionic liquid with non-inflammability effectively avoids thermal runaway between lithium metal and LAGP at high temperatures.
The NASICON-type Li1.5Al0.5Ge1.5P3O12 (LAGP) ceramic electrolyte has the advantages of relatively high ionic conductivity, a wide electrochemical potential window, and air stability. However, side reactions and poor thermal stability between lithium metal and LAGP are enormous challenges. Here, we report a gel polymer electrolyte (GPE) interlayer composed of a solvate ionic liquid and a hyperbranched polyanionic copolymer to stabilize the Li|LAGP interface. The GPE with epoxy groups ensures excellent compatibility and protection between the LAGP and Li metal anode to suppress unfavorable reactions. Moreover, introducing a solvate ionic liquid with non-inflammability can effectively avoid the hidden danger of thermal runaway between lithium metal and LAGP at high temperatures (300 degrees C). The Li|GPE|LAGP|LiFePO4 full cell with the gel interface layer delivers a high reversible capacity of 139.5 mA h g-1 at 0.3 C and can stably cycle 300 times with a retention of 93.4%. This work provides an enlightening strategy for unstable electrolyte interfaces in promising, safe, and outstanding solid-state batteries.
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