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Lithium–antimony–lead liquid metal battery for grid-level energy storage

Author

Listed:
  • Kangli Wang

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Kai Jiang

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Brice Chung

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Takanari Ouchi

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Paul J. Burke

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Dane A. Boysen

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • David J. Bradwell

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Hojong Kim

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Ulrich Muecke

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

  • Donald R. Sadoway

    (Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139-4307, USA)

Abstract

All-liquid batteries comprising a lithium negative electrode and an antimony–lead positive electrode have a higher current density and a longer cycle life than conventional batteries, can be more easily used to make large-scale storage systems, and so potentially present a low-cost means of grid-level energy storage.

Suggested Citation

  • Kangli Wang & Kai Jiang & Brice Chung & Takanari Ouchi & Paul J. Burke & Dane A. Boysen & David J. Bradwell & Hojong Kim & Ulrich Muecke & Donald R. Sadoway, 2014. "Lithium–antimony–lead liquid metal battery for grid-level energy storage," Nature, Nature, vol. 514(7522), pages 348-350, October.
  • Handle: RePEc:nat:nature:v:514:y:2014:i:7522:d:10.1038_nature13700
    DOI: 10.1038/nature13700
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    Citations

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    Cited by:

    1. Agarwal, Daksh & Potnuru, Rakesh & Kaushik, Chiranjeev & Darla, Vinay Rajesh & Kulkarni, Kaustubh & Garg, Ashish & Gupta, Raju Kumar & Tiwari, Naveen & Nalwa, Kanwar Singh, 2022. "Recent advances in the modeling of fundamental processes in liquid metal batteries," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    2. Xinhua Zheng & Zaichun Liu & Jifei Sun & Ruihao Luo & Kui Xu & Mingyu Si & Ju Kang & Yuan Yuan & Shuang Liu & Touqeer Ahmad & Taoli Jiang & Na Chen & Mingming Wang & Yan Xu & Mingyan Chuai & Zhengxin , 2023. "Constructing robust heterostructured interface for anode-free zinc batteries with ultrahigh capacities," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    3. Xu, Cheng & Zhang, E & Jiang, Kai & Wang, Kangli, 2022. "Dual fuzzy-based adaptive extended Kalman filter for state of charge estimation of liquid metal battery," Applied Energy, Elsevier, vol. 327(C).
    4. Liu, Guoan & Xu, Cheng & Li, Haomiao & Jiang, Kai & Wang, Kangli, 2019. "State of charge and online model parameters co-estimation for liquid metal batteries," Applied Energy, Elsevier, vol. 250(C), pages 677-684.
    5. Xian Wang & Zhengxiang Song & Kun Yang & Xuyang Yin & Yingsan Geng & Jianhua Wang, 2019. "State of Charge Estimation for Lithium-Bismuth Liquid Metal Batteries," Energies, MDPI, vol. 12(1), pages 1-22, January.
    6. Liying Tian & Zhenghao Yang & Shiyi Yuan & Tye Milazzo & Qian Cheng & Syed Rasool & Wenrui Lei & Wenbo Li & Yucheng Yang & Tianwei Jin & Shengyu Cong & Joseph Francis Wild & Yonghua Du & Tengfei Luo &, 2024. "Designing electrolytes with high solubility of sulfides/disulfides for high-energy-density and low-cost K-Na/S batteries," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    7. Zhang, Yi & Zhang, E & Guo, Zhenlin & He, Xin & He, Yaling & Li, Haomiao & Jiang, Kai & Zhou, Min, 2023. "Numerical study on thermal characteristics under external short circuit for Li||Bi liquid metal batteries," Applied Energy, Elsevier, vol. 348(C).
    8. Ding, Yi & Shao, Changzheng & Yan, Jinyue & Song, Yonghua & Zhang, Chi & Guo, Chuangxin, 2018. "Economical flexibility options for integrating fluctuating wind energy in power systems: The case of China," Applied Energy, Elsevier, vol. 228(C), pages 426-436.
    9. Simpson, J.G. & Hanrahan, G. & Loth, E. & Koenig, G.M. & Sadoway, D.R., 2021. "Liquid metal battery storage in an offshore wind turbine: Concept and economic analysis," Renewable and Sustainable Energy Reviews, Elsevier, vol. 149(C).

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