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W4385563973 abstract "To improve the ionic conductivity and cycling stability of solid-state lithium batteries based on poly(ethylene oxide) (PEO) electrolytes, we developed a sandwich-structured composite polymer electrolyte (sandwich-CPE) PEO-TiN/PEO-LiYF4/PEO-TiN. The sandwich-CPE delivers a high ionic conductivity of 1.7 × 10–4 S cm–1 at 30 °C and a wide potential window of 0 to 5.0 V (vs Li/Li+). Adding PEO-TiN leads to the formation of Li3N between Li and sandwich-CPE during cycling, which effectively reduces the level of Li dendrite formation. Additionally, PEO-TiN acts as a sacrificial layer to stop the entry of Li dendrites into the interlayer PEO-LiYF4. Using the sandwich-CPE, LiFePO4 retains a reversible capacity of 113.8 mA h g–1 at 30 °C after 300 cycles under 0.5 C. For high-voltage cells, LiNi0.5Co0.2Mn0.3O2 retains a capacity retention of 71.4% at 45 °C after 300 cycles under 0.2 C among 3.0–4.3 V, while Li3V2(PO4)3 delivers an initial discharge capacity of 108.1 mA h g–1 at 60 °C and retains 81.6% after 500 cycles under 1 C among 2.8–4.4 V. These results demonstrate the strong electrochemical compatibility of the sandwich-CPE, enabling high reversible capacity and good cycling stability for solid-state Li batteries with different cathodes at different temperatures and current rates." @default.
W4385563973 created "2023-08-05" @default.
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W4385563973 date "2023-08-04" @default.
W4385563973 modified "2023-10-16" @default.
W4385563973 title "Layered Polymer Stacking for Stable Interfaces and Dendrite Growth Inhibition in All-Solid-State Lithium Batteries" @default.
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W4385563973 doi "https://doi.org/10.1021/acsami.3c07794" @default.
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