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A dielectric electrolyte composite with high lithium-ion conductivity for high-voltage solid-state lithium metal batteries.

Peiran ShiJiabin MaMing LiuShaoke GuoYan-Fei HuangShuwei WangLihan ZhangLikun ChenKe YangXiaotong LiuYuhang LiXufei AnDanfeng ZhangXing ChengQidong LiWei LvGui-Ming ZhongYan-Bing HeFeiyu Kang
Published in: Nature nanotechnology (2023)
The ionic conductivity of composite solid-state electrolytes does not meet the application requirements of solid-state lithium (Li) metal batteries owing to the harsh space charge layer of different phases and low concentration of movable Li + . Herein, we propose a robust strategy for creating high-throughput Li + transport pathways by coupling the ceramic dielectric and electrolyte to overcome the low ionic conductivity challenge of composite solid-state electrolytes. A highly conductive and dielectric composite solid-state electrolyte is constructed by compositing the poly(vinylidene difluoride) matrix and the BaTiO 3 -Li 0.33 La 0.56 TiO 3-x nanowires with a side-by-side heterojunction structure (PVBL). The polarized dielectric BaTiO 3 greatly promotes the dissociation of Li salt to produce more movable Li + , which locally and spontaneously transfers across the interface to coupled Li 0.33 La 0.56 TiO 3-x for highly efficient transport. The BaTiO 3 -Li 0.33 La 0.56 TiO 3-x effectively restrains the formation of the space charge layer with poly(vinylidene difluoride). These coupling effects contribute to a quite high ionic conductivity (8.2 × 10 -4  S cm -1 ) and lithium transference number (0.57) of the PVBL at 25 °C. The PVBL also homogenizes the interfacial electric field with electrodes. The LiNi 0.8 Co 0.1 Mn 0.1 O 2 /PVBL/Li solid-state batteries stably cycle 1,500 times at a current density of 180 mA g - 1 , and pouch batteries also exhibit an excellent electrochemical and safety performance.
Keyphrases
  • solid state
  • highly efficient
  • high throughput
  • room temperature
  • ionic liquid
  • gold nanoparticles
  • single cell
  • visible light
  • high resolution
  • molecular dynamics simulations