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Anionic and Cationic Redox Processes in β-Li 2 IrO 3 and Their Structural Implications on Electrochemical Cycling in a Li-Ion Cell

Abstract : The recent discovery of anionic redox as a means to increase the energy density of transition-metal oxide positive electrodes is now a well-established approach in the Li-ion battery field. However, the science behind this new phenomenon pertaining to various Li-rich materials is still debated. Thus, it is of paramount importance to develop a robust set of analytical techniques to address this issue. Herein, we use a suite of synchrotron-based X-ray spectroscopies as well as diffraction techniques to thoroughly characterize the different redox processes taking place in a model Li-rich compound, the tridimensional hyperhoneycomb β-Li2IrO3. We clearly establish that the reversible removal of Li+ from this compound is associated with a previously described reductive coupling mechanism and the formation of the M-(O-O) and M-(O-O)∗ states. We further show that the respective contributions to these states determine the spectroscopic response for both Ir L3-edge X-ray absorption spectroscopy and X-ray photoemission spectroscopy. Although the high covalency and the robust tridimensional structure of this compound enable a high degree of reversible delithiation, we found that pushing the limits of this charge compensation mechanism has significant effects on the local as well as average structure, leading to electrochemical instability over cycling and voltage decay. Overall, this work highlights the practical limits to which anionic redox can be exploited and sheds some light on the nature of the oxidized species formed in certain lithium-rich compounds.
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https://hal-univ-pau.archives-ouvertes.fr/hal-02502208
Contributor : Sylvie Blanc <>
Submitted on : Monday, March 9, 2020 - 9:18:21 AM
Last modification on : Thursday, October 15, 2020 - 2:44:04 PM

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Paul Pearce, Gaurav Assat, Antonella Iadecola, François Fauth, Rémi Dedryvère, et al.. Anionic and Cationic Redox Processes in β-Li 2 IrO 3 and Their Structural Implications on Electrochemical Cycling in a Li-Ion Cell. Journal of Physical Chemistry C, American Chemical Society, 2020, 124 (5), pp.2771-2781. ⟨10.1021/acs.jpcc.9b10195⟩. ⟨hal-02502208⟩

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