期刊
JOURNAL OF POWER SOURCES
卷 395, 期 -, 页码 16-24出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jpowsour.2018.05.026
关键词
Sodium ion battery; Cathode material; Sodium nickel manganese oxide; Transition metal cation; Oxygen anion
资金
- Federal Ministry of Education and Research (BMBF)
- Federal Ministry of Economic and Technology
- Federal Ministry for the Environment (BMWi), Nature Conservation and Nuclear Safety (BMU) of Germany within the project KaLiPat [03EK3008]
Na2/3Ni1/3Mn2/3O2 with a P2 phase is investigated as a cathod material for sodium ion batteries. It delivers a high discharge capacity of 228 mAh g(-1) within 1.5-4.5 V in half cells, which is much higher than the theoretical value of 172 mAh g(-1). Metal K-edge X-ray absorption near edge spectroscopy results show that the Mn ions remain in 4 + oxidation state during sodiation/desodiation and the charge compensation is due to the Ni2+/Ni4+ redox. Soft X-ray absorption spectroscopy results reveals a gradient in the valence state of Ni ions from bulk to surface for the charged electrode, and a change in the integrated intensity of O K-edge peak after charging, strongly suggesting that part of the charge compensation takes place at the oxygen sites. In addition, the reduction of Mn ions on the surface is observed on the discharged electrode, which indicates that the carbonate based electrolyte reacts with the cathode material, resulting in a fast capacity drop. By utilizing an ionic liquid (IL) electrolyte (1 M NaTFSI in Pyr(14)TFSI) to reduce the interfacial reactions, the discharge capacity of similar to 200 mAh g(-1) is retained.
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