Coupling of Oxygen Dimer and Trapped O<sub>2</sub> with Strong Magnetic Frustration in Layered Li-rich Cathodes
Xiang Wu, Xiaobing Lou, Chunjing Hu, Fushan Geng, Jingxin Li, Chao Li, Bingwen Hu
Abstract
Anion redox in layered Li-rich cathodes provides a high capacity but triggers a series of cascading issues. Current research predominantly focuses on how oxygen species participate in redox and how transition metals move, often ignoring the influence of magnetic frustration. This work systematically investigates the potential link between the evolution of magnetic frustration, structural evolution and oxygen redox in honeycomb Li 2 RuO 3 . Our findings indicate that the phase transition from C 2/ c to R 3 exacerbates the magnetic frustration during Ru oxidation. Subsequently, during oxygen oxidation, the strong magnetic frustration drives the generation of (O 2 ) n − and trapped O 2, which serves to relieve and eventually eliminate the magnetic frustration. This (O 2 ) n − /O 2 formation mechanism, termed “magnetic-frustration-driven mechanism”, provides a plausible explanation for the formation of trapped O 2 in the systems with strong covalent TM–O bonds. Accordingly, we emphasize that improvement strategies should not only enhance the covalent TM–O bonds but also relieve strong magnetic frustration.