Accelerating Li+ intercalation kinetics through synergetic modification in Li-rich cathode

In the pursuit of high-energy density lithium-ion battery, Li-rich Mn-based oxide cathode has gained great attention with unexpectedly high capacity, low cost and excellent thermal stability. However, the cause for the sluggish kinetics remains a mystery, hindering the application of Li-rich cathode material. Here, we reveal the interfacial instability is the driving force for the sluggish kinetics, which severely blocks the interfacial Li-ion transport and triggers fast battery failure. Through rice-husk carbon (RHC) and spinel phase modification on Li-rich Mn-based oxide Li1.2Ni0.16Mn0.56Co0.08O2 (LNMC), the poor lithium ion diffusion and interfacial degradation can be effectively prevented, delivering a high specific capacity of around 300 mAh/g and excellent rate performance. These findings provide a universal method to prepare high electrochemical performance Li-rich oxide materials.