Optimizing Dopant for Enhanced Oxygen-Redox Performance in P2-Na Cathode Materials for Sodium-Ion Batteries

Abstract

Recently, there has been a lot of interest in using oxygen-redox-based cathode materials for sodium-ion batteries (SIBs) due to their potential for providing additional capacity in the high-voltage range. However, they have some matter, including fast capacity fading and poor rate capability. Herein, P2-Na0.7[Li0.1Ni0.1Mg0.1Mn0.7]O2 is introduced, an layered oxide cathode material for Na-ion batteries based on oxygen-redox. The effect of Ni doping is improved electrochemical performance. Mg2+ in transition metal layer delivered relatively higher capacity via oxygen redox in high voltage region by comparison with Mg-free P2-Na0.75[Li0.15Ni0.15Mn0.7]O2, showing a specific discharge capacity of 175mAh g-1 with 83% of capacity retention after 100 cycles. This study show how the co-doping of Li, Ni and Mg can impact P2-type layered materials and proposes a novel approach to utilizing Mn-rich cathode materials through oxygen redox, with a focus on optimizing the dopant for sodium-ion batteries.