Revealing Electronic Signatures of Lattice Oxygen Redox in Lithium Ruthenates and Implications for High-Energy Li-Ion Battery Material Designs

Anion redox in lithium transition-metal oxides such as Li2RuO3 and Li2MnO3 has catalyzed intensive research efforts to find transition-metal oxides with anion redox that may boost the energy density of lithium-ion batteries. The physical origin of the observed anion redox remains debatable, and more...

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Bibliographic Details
Main Authors:	Yu, Yang (Author), Karayaylali, Pinar (Author), Nowak, Stanisław H. (Author), Giordano, Livia (Author), Gauthier, Magali Aurelie Marie (Author), Hong, Wesley (Author), Kou, Ronghui (Author), Li, Qinghao (Author), Vinson, John (Author), Kroll, Thomas (Author), Sokaras, Dimosthenis (Author), Sun, Cheng-Jun (Author), Charles, Nenian (Author), Maglia, Filippo (Author), Jung, Roland (Author), Shao-Horn, Yang (Author)
Other Authors:	Massachusetts Institute of Technology. Department of Materials Science and Engineering (Contributor), Massachusetts Institute of Technology. Research Laboratory of Electronics (Contributor)
Format:	Article
Language:	English
Published:	American Chemical Society (ACS), 2021-02-05T20:40:23Z.
Subjects:	Article
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Revealing Electronic Signatures of Lattice Oxygen Redox in Lithium Ruthenates and Implications for High-Energy Li-Ion Battery Material Designs

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