Literature DB >> 29461536

Oxygen redox chemistry without excess alkali-metal ions in Na2/3[Mg0.28Mn0.72]O2.

Urmimala Maitra1, Robert A House1, James W Somerville1, Nuria Tapia-Ruiz1, Juan G Lozano1, Niccoló Guerrini1, Rong Hao1, Kun Luo1, Liyu Jin1, Miguel A Pérez-Osorio1, Felix Massel2, David M Pickup3, Silvia Ramos3, Xingye Lu4, Daniel E McNally4, Alan V Chadwick3, Feliciano Giustino1, Thorsten Schmitt4, Laurent C Duda2, Matthew R Roberts1, Peter G Bruce1,5.   

Abstract

The search for improved energy-storage materials has revealed Li- and Na-rich intercalation compounds as promising high-capacity cathodes. They exhibit capacities in excess of what would be expected from alkali-ion removal/reinsertion and charge compensation by transition-metal (TM) ions. The additional capacity is provided through charge compensation by oxygen redox chemistry and some oxygen loss. It has been reported previously that oxygen redox occurs in O 2p orbitals that interact with alkali ions in the TM and alkali-ion layers (that is, oxygen redox occurs in compounds containing Li+-O(2p)-Li+ interactions). Na2/3[Mg0.28Mn0.72]O2 exhibits an excess capacity and here we show that this is caused by oxygen redox, even though Mg2+ resides in the TM layers rather than alkali-metal (AM) ions, which demonstrates that excess AM ions are not required to activate oxygen redox. We also show that, unlike the alkali-rich compounds, Na2/3[Mg0.28Mn0.72]O2 does not lose oxygen. The extraction of alkali ions from the alkali and TM layers in the alkali-rich compounds results in severely underbonded oxygen, which promotes oxygen loss, whereas Mg2+ remains in Na2/3[Mg0.28Mn0.72]O2, which stabilizes oxygen.

Entities:  

Year:  2018        PMID: 29461536     DOI: 10.1038/nchem.2923

Source DB:  PubMed          Journal:  Nat Chem        ISSN: 1755-4330            Impact factor:   24.427


  16 in total

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