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Discovery of abnormal lithium-storage sites in molybdenum dioxide electrodes

Author

Listed:
  • Jeong Kuk Shon

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.
    Sungkyunkwan University)

  • Hyo Sug Lee

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.)

  • Gwi Ok Park

    (Sungkyunkwan University
    Sungkyunkwan University)

  • Jeongbae Yoon

    (Sungkyunkwan University)

  • Eunjun Park

    (Hanyang University)

  • Gyeong Su Park

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.)

  • Soo Sung Kong

    (Sungkyunkwan University)

  • Mingshi Jin

    (Key Laboratory of Natural Resource of the Changbai Mountain and Functional Molecular (Yanbian University), Ministry of Education)

  • Jae-Man Choi

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.)

  • Hyuk Chang

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.)

  • Seokgwang Doo

    (Samsung Advanced Institute of Technology, Samsung Electronics Co., Ltd.)

  • Ji Man Kim

    (Sungkyunkwan University
    Sungkyunkwan University)

  • Won-Sub Yoon

    (Sungkyunkwan University)

  • Chanho Pak

    (Fuel Cell Group, Corporate R&D Center, Samsung SDI Co., Ltd.,)

  • Hansu Kim

    (Hanyang University)

  • Galen D. Stucky

    (University of California)

Abstract

Developing electrode materials with high-energy densities is important for the development of lithium-ion batteries. Here, we demonstrate a mesoporous molybdenum dioxide material with abnormal lithium-storage sites, which exhibits a discharge capacity of 1,814 mAh g−1 for the first cycle, more than twice its theoretical value, and maintains its initial capacity after 50 cycles. Contrary to previous reports, we find that a mechanism for the high and reversible lithium-storage capacity of the mesoporous molybdenum dioxide electrode is not based on a conversion reaction. Insight into the electrochemical results, obtained by in situ X-ray absorption, scanning transmission electron microscopy analysis combined with electron energy loss spectroscopy and computational modelling indicates that the nanoscale pore engineering of this transition metal oxide enables an unexpected electrochemical mass storage reaction mechanism, and may provide a strategy for the design of cation storage materials for battery systems.

Suggested Citation

  • Jeong Kuk Shon & Hyo Sug Lee & Gwi Ok Park & Jeongbae Yoon & Eunjun Park & Gyeong Su Park & Soo Sung Kong & Mingshi Jin & Jae-Man Choi & Hyuk Chang & Seokgwang Doo & Ji Man Kim & Won-Sub Yoon & Chanho, 2016. "Discovery of abnormal lithium-storage sites in molybdenum dioxide electrodes," Nature Communications, Nature, vol. 7(1), pages 1-9, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11049
    DOI: 10.1038/ncomms11049
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