Shintaro Kitajima scite author profile

The use of metallic lithium anodes enables higher energy density and higher specific capacity Li‐based batteries. However, it is essential to suppress lithium dendrite growth during electrodeposition. Li‐ion‐conducting ceramics (LICC) can mechanically suppress dendritic growth but are too fragile and also have low Li‐ion conductivity. Here, a simple, versatile, and scalable procedure for fabricating flexible Li‐ion‐conducting composite membranes composed of a single layer of LICC particles firmly embedded in a polymer matrix with their top and bottom surfaces exposed to allow for ionic transport is described. The membranes are thin (<100 μm) and possess high Li‐ion conductance at thicknesses where LICC disks are mechanically unstable. It is demonstrated that these membranes suppress Li dendrite growth even when the shear modulus of the matrix is lower than that of lithium. It is anticipated that these membranes enable the use of metallic lithium anodes in conventional and solid‐state Li‐ion batteries as well as in future LiS and LiO2 batteries.

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Fabrication and impedance analysis for designed composite layers with polymer and inorganic electrolytes leading to high conductivity

Kitajima

Kitaura

et al. 2018

Solid State Ionics

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Methodology for enhancing the ionic conductivity of superionic halogen-rich argyrodites for all-solid-state lithium batteries

Kitajima

Ryu

et al. 2021

Materials Today Communications

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Pure bulk ion-conducting membrane for high-energy-density batteries

Choi

Kim

et al. 2021

Journal of Power Sources

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