Enhancing the Cycling and Rate Performance of NaNi 1/3 Fe 1/3 Mn 1/3 O 2 Cathodes by La/Al Codoping.

O3-type layered oxides hold significant promise as the material for cathodes in sodium-ion batteries for their favorable electrochemical properties, while irreversible structural degradation and harmful phase transitions during cyclic operation limit the practical application of these materials. In this work, we proposed a La 3+ /Al 3+ codoping strategy in O3-Na(Ni 1/3 Mn 1/3 Fe 1/3 )O 2 cathode materials and found that batteries with the Na (Ni 1/3 Mn 1/3 Fe 1/3 ) 0.998 La 0.001 Al 0.001 O 2 (NFM-La/Al) cathodes exhibited not only promoted capacity from 135.80 to 170.42 mAh g -1 at 0.2 C but also significantly enhanced cycling stability, with a 10% improvement in capacity retention compared with NFM cathodes after 300 cycles. Particularly, their rate performance was significantly improved as well. XRD and XPS tests indicated that La could expand the c -axis of NFM due to its larger ionic radius and thus significantly increased Na + ion diffusion efficiency, and in addition, Al doping could effectively increase the content of Ni 2+ and Mn 4+ and thus greatly alleviated the negative Jahn-Teller effect caused by Mn 3+ . Moreover, consistent with XRD analyses, DFT calculations further substantiated the effectiveness of the La/Al codoping strategy by demonstrating the detailed atom substitution mechanism in the NFM crystal lattice. The boosted structure stability and Na + diffusion kinetics may enhance the potential for practical applications of O3-type oxide cathodes.