The adoption of doping modification technology, combined with slightly oxygen-enriched synthesis process, allows materials to have super-high capacity and good cycle performance

The adoption of raw material modification technology and ion pre-doping process leads to the synthesis of single crystal morphology materials with excellent room temperature and high temperature cycle performance

The adoption of polynary co-doping and gradient sintering process allows materials to have good cyclic stability while taking into account their capacity

The adoption of nano doping technology and particle matching process allows materials to have both high capacity and high compaction density

The adoption of polynary co-doping and nano-coating process allows materials to have good cycling stability and storage performance

The adoption of polynary co-doping and coating processes, as well as multiple sintering modification techniques, allows materials to have excellent high-temperature cycling performance and excellent storage performance