Scientific Reports (Feb 2020)

Cathode Properties of Na3FePO4CO3 Prepared by the Mechanical Ball Milling Method for Na-ion Batteries

  • Baowei Xie,
  • Ryo Sakamoto,
  • Ayuko Kitajou,
  • Kosuke Nakamoto,
  • Liwei Zhao,
  • Shigeto Okada,
  • Yuki Fujita,
  • Nobuto Oka,
  • Tetsuaki Nishida,
  • Wataru Kobayashi,
  • Masaki Okada,
  • Toshiya Takahara

DOI
https://doi.org/10.1038/s41598-020-60183-3
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 8

Abstract

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Abstract The carbonophosphate Na3FePO4CO3 was synthesized by the mechanical ball milling method for the first time. The composition of the obtained sample with a higher amount of Fe2+ was Na2.66Fe2+ 0.66Fe3+ 0.34PO4CO3 as confirmed by Mössbauer analysis, owing to the good airtight properties of this method. The obtained samples in an organic electrolyte delivered an initial discharge capacity of 124 mAh/g at room temperature, and a larger discharge capacity of 159 mAh/g (1.66 Na+/mole) at 60 °C. With 17 m NaClO4 aqueous electrolyte, a discharge capacity of 161 mAh/g (1.69 Na+/mole) was delivered because of the high ionic conductivity of the concentrated aqueous electrolyte. During the charge-discharge process, the formation of Fe4+ after charging up to 4.5 V and the return of Fe2+ after discharging down to 1.5 V were detected by ex-situ X-ray absorption near edge structure (XANES) analysis.