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. 2021 Aug;596(7873):525-530.
doi: 10.1038/s41586-021-03757-z. Epub 2021 Aug 25.

Rechargeable Na/Cl2 and Li/Cl2 batteries

Guanzhou Zhu #  1 Xin Tian #  1 Hung-Chun Tai  2 Yuan-Yao Li  2 Jiachen Li  1 Hao Sun  1 Peng Liang  1 Michael Angell  1 Cheng-Liang Huang  2 Ching-Shun Ku  3 Wei-Hsuan Hung  4 Shi-Kai Jiang  5 Yongtao Meng  1 Hui Chen  6 Meng-Chang Lin  6 Bing-Joe Hwang  5 Hongjie Dai  7
Affiliations

Rechargeable Na/Cl2 and Li/Cl2 batteries

Guanzhou Zhu et al. Nature. 2021 Aug.

Abstract

Lithium-ion batteries (LIBs) are widely used in applications ranging from electric vehicles to wearable devices. Before the invention of secondary LIBs, the primary lithium-thionyl chloride (Li-SOCl2) battery was developed in the 1970s using SOCl2 as the catholyte, lithium metal as the anode and amorphous carbon as the cathode1-7. This battery discharges by lithium oxidation and catholyte reduction to sulfur, sulfur dioxide and lithium chloride, is well known for its high energy density and is widely used in real-world applications; however, it has not been made rechargeable since its invention8-13. Here we show that with a highly microporous carbon positive electrode, a starting electrolyte composed of aluminium chloride in SOCl2 with fluoride-based additives, and either sodium or lithium as the negative electrode, we can produce a rechargeable Na/Cl2 or Li/Cl2 battery operating via redox between mainly Cl2/Cl- in the micropores of carbon and Na/Na+ or Li/Li+ redox on the sodium or lithium metal. The reversible Cl2/NaCl or Cl2/LiCl redox in the microporous carbon affords rechargeability at the positive electrode side and the thin alkali-fluoride-doped alkali-chloride solid electrolyte interface stabilizes the negative electrode, both are critical to secondary alkali-metal/Cl2 batteries.

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