2021
DOI: 10.26434/chemrxiv-2021-bblhc
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Transition metal migration and O2 formation underpin voltage hysteresis in oxygen-redox disordered rocksalt cathodes

Abstract: Lithium-rich disordered rocksalt cathodes display high capacities arising from redox chemistry on both transition-metal and oxygen ions and are potential candidates for next-generation lithium-ion batteries. The atomic-scale mechanisms governing this O-redox behaviour, however, are not fully understood. In particular, it is not clear to what extent transition metal migration is required for O-redox and what role this may play in explaining voltage hysteresis in these materials. Here, we reveal an O-redox mecha… Show more

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Cited by 3 publications
(2 citation statements)
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“…Furthermore, the effect of the Ti dopant on the kinetics of the cathode material's structural change is discussed based on insights provided by the DeePMD simulations. Here, we note that although the generation of oxygen molecules from the cathode surfaces is easier in batteries, the TM cation migrations in the bulk were reported by experiments, [46][47][48][49][50][51] which also could lead to the oxygen release. For instance, the layered-to-rocksalt-phase transition, usually induced by TM cation migrations, was found in the bulk LixCoO2 phase by Li et al 47 , which draws attention to the dynamic behaviors of the TM and oxygen atoms in a highly delithiated bulk-phase cathode material.…”
Section: Toc Graphicmentioning
confidence: 77%
“…Furthermore, the effect of the Ti dopant on the kinetics of the cathode material's structural change is discussed based on insights provided by the DeePMD simulations. Here, we note that although the generation of oxygen molecules from the cathode surfaces is easier in batteries, the TM cation migrations in the bulk were reported by experiments, [46][47][48][49][50][51] which also could lead to the oxygen release. For instance, the layered-to-rocksalt-phase transition, usually induced by TM cation migrations, was found in the bulk LixCoO2 phase by Li et al 47 , which draws attention to the dynamic behaviors of the TM and oxygen atoms in a highly delithiated bulk-phase cathode material.…”
Section: Toc Graphicmentioning
confidence: 77%
“…1 The schematic illustration of the development of LIB and SIB timelines. 38,[44][45][46][47] inexpensiveness. From the most basic concept of the electrolyte, the lowest unoccupied molecular orbital (LUMO) and the highest occupied molecular orbital (HOMO) are the two most important factors (Fig.…”
Section: Basic Requirements For Additivesmentioning
confidence: 99%