期刊
JOULE
卷 5, 期 5, 页码 1267-1280出版社
CELL PRESS
DOI: 10.1016/j.joule.2021.04.006
关键词
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资金
- EPSRC
- Henry Royce Institute for Advanced Materials [EP/R00661X/1, EP/S019367/1, EP/R010145/1]
- Faraday Institution [FIRG007, FIRG008]
- Shell
- EPSRC Tier-2 capital grant [EP/P020259/1]
Redox processes involving O-2 formation and reduction were observed in compounds containing Mg2+ on the transition-metal layers (TML), similar to what occurs in compounds with Li+. However, there are differences in the behavior of the compounds during cycling. The re-appearance of the high-voltage plateau in P2-Na-0.(67)[Mn0.72Mg0.28]O-2 during the second charge is attributed to the partial reversibility of Mn and Mg migration and the local reformation of the honeycomb ordering.
O-redox in compounds with Li on the transition-metal layers (TML) has recently been attributed to the formation of molecular O-2 on charge, trapped in the lattice. Here, we show that a similar process occurs for P2-Na-0.(67)[Mn0.72Mg0.28]O-2, which contains Mg2+ on the TML. The molecular O-2 is identified by high-resolution RIXS and quantified by magnetometry, showing that it equates to the charge passed. This O-2 is trapped in voids that are formed by Mg2+ out-ofplane displacement and Mn4+ in-plane disordering and is then reduced on discharge associated with a large voltage hysteresis. In contrast to compounds containing Li+ in the TML, in which the honeycomb ordering and the high-voltage plateau are irreversibly lost after the first cycle, in P2-Na-0.(67)[Mn0.72Mg0.28]O-2, the plateau reappears partially on the second charge due to the partial reversibility of Mn in-plane and Mg out-of-plane migration and the local reformation of the honeycomb ordering.
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