Add to ORKGIn Li-rich cation-disordered rocksalt oxide cathodes (DRX), partial fluorine substitution in the oxygen anion sublattice can increase the capacity contribution from transition-metal (TM) redox while reducing that from the less reversible oxygen redox. To date, limited fluorination substitution has been achieved by introducing LiF precursor during the solid-state synthesis. To take full advantage of the fluorination effect, however, a higher F content is desired. In the present study, the successful use of a fluorinated polymeric precursor is reported to increase the F solubility in DRX and the incorporation of F content up to 10–12.5 at% into the rocksalt lattice of a model Li-Mn-Nb-O (LMNO) system, largely exceeding the 7.5 at% limit achie...
In cation-disordered rocksalt Li-ion cathode materials, an excess of Li with respect to the transiti...
Fluorine substitution is a critical enabler for improving the cycle life and energy density of disor...
Cation-disordered rocksalt (DRS) materials have shown good initial reversibility and facile Li$^{+}$...
In Li-rich cation-disordered rocksalt oxide cathodes (DRX), partial fluorine substitution in the oxy...
Cation-disordered rocksalt (DRX) oxides are a promising new class of high-energy-density cathode mat...
Cation-disordered rocksalts (DRXs) have emerged as a new class of high-capacity Li-ion cathode mater...
For lithium-ion rechargeable batteries to meet society's ever-growing demands in electrical energy s...
Cation-disordered Li-excess cathodes with oxygen redox reactions are promising candidates for high-e...
The discovery of facile Li transport in disordered, Li-excess rocksalt materials has opened a vast n...
Cation-disordered rocksalt (DRX) materials have emerged as a class of novel high-capacity cathodes f...
Using both computations and experiments, we demonstrate that the performance of Li-excess cation-dis...
Disordered rocksalt (DRX) materials are an emerging class of cathode materials for Li ion batteries....
Recent progress in the understanding of percolation theory points to cation-disordered lithium-exces...
Mn-based Li-excess cation-disordered rocksalt (DRX) oxyfluorides are promising candidates for next-g...
Disordered rocksalt (DRX) Li-rich transition metal (TM) oxides, especially those based on Mn, are pr...
In cation-disordered rocksalt Li-ion cathode materials, an excess of Li with respect to the transiti...
Fluorine substitution is a critical enabler for improving the cycle life and energy density of disor...
Cation-disordered rocksalt (DRS) materials have shown good initial reversibility and facile Li$^{+}$...
In Li-rich cation-disordered rocksalt oxide cathodes (DRX), partial fluorine substitution in the oxy...
Cation-disordered rocksalt (DRX) oxides are a promising new class of high-energy-density cathode mat...
Cation-disordered rocksalts (DRXs) have emerged as a new class of high-capacity Li-ion cathode mater...
For lithium-ion rechargeable batteries to meet society's ever-growing demands in electrical energy s...
Cation-disordered Li-excess cathodes with oxygen redox reactions are promising candidates for high-e...
The discovery of facile Li transport in disordered, Li-excess rocksalt materials has opened a vast n...
Cation-disordered rocksalt (DRX) materials have emerged as a class of novel high-capacity cathodes f...
Using both computations and experiments, we demonstrate that the performance of Li-excess cation-dis...
Disordered rocksalt (DRX) materials are an emerging class of cathode materials for Li ion batteries....
Recent progress in the understanding of percolation theory points to cation-disordered lithium-exces...
Mn-based Li-excess cation-disordered rocksalt (DRX) oxyfluorides are promising candidates for next-g...
Disordered rocksalt (DRX) Li-rich transition metal (TM) oxides, especially those based on Mn, are pr...
In cation-disordered rocksalt Li-ion cathode materials, an excess of Li with respect to the transiti...
Fluorine substitution is a critical enabler for improving the cycle life and energy density of disor...
Cation-disordered rocksalt (DRS) materials have shown good initial reversibility and facile Li$^{+}$...