Abstract

Abstract LiNi0.8Co0.15Al0.05O2 cathode material was synthesized using the co-precipitation method, and the effect of synthesis conditions on powder properties was studied. The results indicate that adjusting the pH value and complexing agent concentration during the reaction process can effectively control the precipitation process. The obtained hydroxide precursor is petallike, and the morphology of the cathode material powder after high-temperature sintering is well-dispersed spherical particles. The changes in the sintering system can significantly affect the crystallization process and crystal structure of cathode materials. As the sintering temperature increases, the peak rate I (003)/I (104) significantly decreases, while the R value increases. With the prolongation of sintering time, I (003)/I (104) first increases and then decreases, and the R value first decreases and then increases. After sintering at 750°C × 12 h, the cathode material has the highest peak rate and the lowest R value, indicating the lowest degree of cation mixing, higher structural integrity and the highest electrochemical activity at this time.

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