引用本文:
Xu Li, Yue Zhao, Tingli Ma. Improved polymer electrolyte interfacial contact via constructing vertically aligned fillers[J]. Chinese Journal of Structural Chemistry,
2025, 44(2): 100406.
doi:
10.1016/j.cjsc.2024.100406
Citation: Xu Li, Yue Zhao, Tingli Ma. Improved polymer electrolyte interfacial contact via constructing vertically aligned fillers[J]. Chinese Journal of Structural Chemistry, 2025, 44(2): 100406. doi: 10.1016/j.cjsc.2024.100406
Citation: Xu Li, Yue Zhao, Tingli Ma. Improved polymer electrolyte interfacial contact via constructing vertically aligned fillers[J]. Chinese Journal of Structural Chemistry, 2025, 44(2): 100406. doi: 10.1016/j.cjsc.2024.100406
Improved polymer electrolyte interfacial contact via constructing vertically aligned fillers
摘要:
In summary, incorporating vertically aligned structures at the filler-electrolyte interface exhibits excellent interfacial properties and Ion transmission rate. This arrangement effectively avoids particle agglomeration caused by high surface energy ion migration along the vertical direction of ion migration facilitate the uniform deposition of Li+ on the metallic lithium anode. Additionally, the shortened lithium-ion conduction distance and excellent electrolyte/electrode interface contribute to enhance the electrochemical performance of assembled solid-state batteries. By constructing vertically aligned fillers, it not only reduces interfacial impedance, enhances ion diffusion, but also enables preparation of flexible and stable CPEs.
English
Improved polymer electrolyte interfacial contact via constructing vertically aligned fillers
Abstract:
In summary, incorporating vertically aligned structures at the filler-electrolyte interface exhibits excellent interfacial properties and Ion transmission rate. This arrangement effectively avoids particle agglomeration caused by high surface energy ion migration along the vertical direction of ion migration facilitate the uniform deposition of Li+ on the metallic lithium anode. Additionally, the shortened lithium-ion conduction distance and excellent electrolyte/electrode interface contribute to enhance the electrochemical performance of assembled solid-state batteries. By constructing vertically aligned fillers, it not only reduces interfacial impedance, enhances ion diffusion, but also enables preparation of flexible and stable CPEs.
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