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Enhanced Cycling Performance of Li‐Rich Oxide Cathode via a Vaccine Effect

Kai Yao, Yaowen Wang, Xiaoyan Xie, Miao Li, Ao Zhang, Xin Zhang, Guangshe Li, Liping Li

2025Angewandte Chemie International Edition9 citationsDOI

Abstract

Abstract Multi‐component incorporation and its inoculated gradient disorder structure can greatly modify the properties of materials. However, the contribution of the inoculated surface gradient disorder structure on the Li‐rich cathodeswith distinctive integrated structure of LiMO 2 (M = Ni, Mn, Co) and Li 2 MnO 3 has been overlooked. Here, we reveal a vaccine effect of surface gradient disorder structure, demonstrating its significant improvement on the cycling performance of inoculated Li 1.2 Mn 0.6 Ni 0.2 O 2 . The inoculated Li 1.2 Mn 0.6 Ni 0.2 O 2 exhibits an initial coulombic efficiency of 85% and maintains ultra‐high stability with 100% capacity retention after 500 cycles. Furthermore, it delivers a capacity of 154.5 mAh g −1 with 84.2% retention after 900 cycles at current density of 200 mA g −1 . Through a combination of electrochemical analysis and theoretical simulations via the basic Nernst equations, we demonstrate that the inoculated gradient disorder structure changes the thermodynamic and kinetic parameters governing the lattice oxygen redox process, which follows three sequential steps O 2− →O 2 2− →O 2− →O 2 . This structural modification reconstructs the lattice oxygen redox, specially enhancing the electrode potential of the O 2− →O 2 step and reducing the reaction rate of O 2− →O 2 2− →O 2 − of Li 1.2 Mn 0.6 Ni 0.2 O 2 . These findings bring a novel perspective on the conventional foreign element incorporation strategy, providing valuable insights to support the continued development of Li‐ion batteries.

Topics & Concepts

CyclingCathodeMaterials scienceOxideChemical engineeringMetallurgyChemistryEngineeringHistoryPhysical chemistryArchaeologyAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies