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Surface engineering of inorganic solid-state electrolytes via interlayers strategy for developing long-cycling quasi-all-solid-state lithium batteries

Author

Listed:
  • Ju-Sik Kim

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

  • Gabin Yoon

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

  • Sewon Kim

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

  • Shoichi Sugata

    (Samsung R&D Institute Japan, Samsung Electronics, 2-1-11, Semba Nishi, Minoh)

  • Nobuyoshi Yashiro

    (Samsung R&D Institute Japan, Samsung Electronics, 2-1-11, Semba Nishi, Minoh)

  • Shinya Suzuki

    (Samsung R&D Institute Japan, Samsung Electronics, 2-1-11, Semba Nishi, Minoh)

  • Myung-Jin Lee

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

  • Ryounghee Kim

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

  • Michael Badding

    (Sullivan Park Campus, Corning Incorporated)

  • Zhen Song

    (Sullivan Park Campus, Corning Incorporated)

  • JaeMyung Chang

    (Sullivan Park Campus, Corning Incorporated)

  • Dongmin Im

    (Battery Material Lab., Samsung Advanced Institute of Technology, 130, Samsung-ro, Yeongtong-gu)

Abstract

Lithium metal batteries (LMBs) with inorganic solid-state electrolytes are considered promising secondary battery systems because of their higher energy content than their Li-ion counterpart. However, the LMB performance remains unsatisfactory for commercialization, primarily owing to the inability of the inorganic solid-state electrolytes to hinder lithium dendrite propagation. Here, using an Ag-coated Li6.4La3Zr1.7Ta0.3O12 (LLZTO) inorganic solid electrolyte in combination with a silver-carbon interlayer, we demonstrate the production of stable interfacially engineered lab-scale LMBs. Via experimental measurements and computational modelling, we prove that the interlayers strategy effectively regulates lithium stripping/plating and prevents dendrite penetration in the solid-state electrolyte pellet. By coupling the surface-engineered LLZTO with a lithium metal negative electrode, a high-voltage positive electrode with an ionic liquid-based liquid electrolyte solution in pouch cell configuration, we report 800 cycles at 1.6 mA/cm2 and 25 °C without applying external pressure. This cell enables an initial discharge capacity of about 3 mAh/cm2 and a discharge capacity retention of about 85%.

Suggested Citation

  • Ju-Sik Kim & Gabin Yoon & Sewon Kim & Shoichi Sugata & Nobuyoshi Yashiro & Shinya Suzuki & Myung-Jin Lee & Ryounghee Kim & Michael Badding & Zhen Song & JaeMyung Chang & Dongmin Im, 2023. "Surface engineering of inorganic solid-state electrolytes via interlayers strategy for developing long-cycling quasi-all-solid-state lithium batteries," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36401-7
    DOI: 10.1038/s41467-023-36401-7
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    References listed on IDEAS

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    1. Sewon Kim & Ju-Sik Kim & Lincoln Miara & Yan Wang & Sung-Kyun Jung & Seong Yong Park & Zhen Song & Hyungsub Kim & Michael Badding & JaeMyung Chang & Victor Roev & Gabin Yoon & Ryounghee Kim & Jung-Hwa, 2022. "High-energy and durable lithium metal batteries using garnet-type solid electrolytes with tailored lithium-metal compatibility," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    2. Yong-Gun Lee & Satoshi Fujiki & Changhoon Jung & Naoki Suzuki & Nobuyoshi Yashiro & Ryo Omoda & Dong-Su Ko & Tomoyuki Shiratsuchi & Toshinori Sugimoto & Saebom Ryu & Jun Hwan Ku & Taku Watanabe & Youn, 2020. "High-energy long-cycling all-solid-state lithium metal batteries enabled by silver–carbon composite anodes," Nature Energy, Nature, vol. 5(4), pages 299-308, April.
    3. Yuming Chen & Ziqiang Wang & Xiaoyan Li & Xiahui Yao & Chao Wang & Yutao Li & Weijiang Xue & Daiwei Yu & So Yeon Kim & Fei Yang & Akihiro Kushima & Guoge Zhang & Haitao Huang & Nan Wu & Yiu-Wing Mai &, 2020. "Li metal deposition and stripping in a solid-state battery via Coble creep," Nature, Nature, vol. 578(7794), pages 251-255, February.
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    2. Haobo Li & Yicheng Zhu & Zihan Zhao & Ruixin Ma & Jiachen Lu & Wenjie Wan & Qianli Chen, 2025. "Mid-infrared light resonance-enhanced proton conductivity in ceramics," Nature Communications, Nature, vol. 16(1), pages 1-11, December.

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