NCM811 Cathode Precursor (Nickel-Cobalt-Manganese) is prepared by the co-precipitation method after adjusting the molar ratio of transition metal ions. Stanford Electronics has rich experience in manufacturing and supplying high-quality NCM811 Cathode Precursor (Nickel-Cobalt-Manganese).
Related products: Lithium Iron Phosphate Powder LiFePO4, LFP, Lithium Cobalt (III) Oxide Powder (LCO Powder), Lithium Manganese Oxide Powder (LMO Powder), NCM523 Cathode Precursor, NCM622 Cathode Precursor
NCM811 Cathode Precursor (Nickel-Cobalt-Manganese) is prepared by the co-precipitation method after adjusting the molar ratio of transition metal ions. They are used to synthesize NCM Lithium Nickel Cobalt Aluminum Oxide Cathode. Most of the precursors have sphere morphology.
Item |
Unit |
Value |
|
Particle Size Distribution |
D10 |
um |
>2.2 |
D50 |
um |
3.9±0.2 |
|
D90 |
um |
<6.4 |
|
BET |
m2/g |
16±3.0 |
|
Tap Density |
g/cm3 |
1.65±0.15 |
|
Bulk Density |
g/cm3 |
1.10±0.2 |
|
Chemical Composition |
Ni |
wt% |
51.44±1.0 |
Co |
wt% |
7.00±0.3 |
|
Mn |
wt% |
3.56±0.3 |
The NCM811 Cathode Precursor (Nickel-Cobalt-Manganese) is used in lithium-ion batteries for electric vehicles, power tools, and 3C devices.
Our NCM811 Cathode Precursor (Nickel-Cobalt-Manganese) is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Item |
Unit |
Value |
|
Particle Size Distribution |
D10 |
um |
>2.2 |
D50 |
um |
3.9±0.2 |
|
D90 |
um |
<6.4 |
|
BET |
m2/g |
16±3.0 |
|
Tap Density |
g/cm3 |
1.65±0.15 |
|
Bulk Density |
g/cm3 |
1.10±0.2 |
|
Chemical Composition |
Ni |
wt% |
51.44±1.0 |
Co |
wt% |
7.00±0.3 |
|
Mn |
wt% |
3.56±0.3 |
E-mail address with your company's domain name is preferred. Otherwise, we may not be able to process your inquiry.
Please fill in the required fields.