The sodium ion cathode material consists of spheroids formed by agglomeration of a number of uniformly sized flake particles. The optimal length of flake particles is 0.5μm ~ 2μm, and the length distribution range of flake particles is narrow, indicating that the size of flake particles is similar. The spheroids with uniform size and regular shape can be obtained from the flaky particles treated by PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC.
The thickness of the flake particles ranges from 50nm to 200nm. Since the flake particles are deposited layer by layer, the earlier the flake particles are formed, the thicker the thickness may be. The long axis of the spheroid is 5μm ~ 15μm, and the size of the spheroid is related to the size of the flake particles and the deposition time. The longer the deposition time, the larger the volume of the growing spheroid. What is the change after PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC process?
The concentration of particle size distribution α of sodium ion cathode MATERIAL is 0.65≤α≤1.25, and the sphericity regularity β of sodium ion cathode material is 1≤β≤1.1, PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC removal of iron cathode material process compared with prior art, PTMS lithium Cobalt acid material magnetic With a very narrow particle size distribution, it can significantly improve the vibration density.
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