Thank you!

Your quote has been successfully submitted!

For products requiring additional information, our team will contact you within 1 business day

Failed

There was an error submitting your quote. Please try again.

MSE PRO™ Precursor Powder of NCAOH2 (Ni:Co:Mn=8:0.15:0.05)– MSE Supplies LLC

Free Shipping on MSE PRO Online Orders of $500 or More! U.S. Orders Only * Offer Excludes Hazmat Shipments *

Menu

This product has been added to the cart.

MSE PRO Precursor Powder of NCAOH2 (Ni:Co:Mn=8:0.15:0.05) for High Capacity Li-Ion Battery Cathode Powder

MSE PRO Precursor Powder of NCAOH2 (Ni:Co:Mn=8:0.15:0.05) for High Capacity Li-Ion Battery Cathode Powder

SKU: PO0553

  • $ 12995
  • Save $ 1905



MSE PRO™ Precursor Powder of NCAOH2 (Ni:Co:Mn=8:0.15:0.05) for High Capacity Li-Ion Battery Cathode Powder

MSE PRO™ Precursor Powder of NCAOH2 is prepared for meeting the needs of more high-end technology , especially the battery materials and electric vehicles. This Precursor Powder of NCAOH2 has high energy density and excellent chemical stability. The main role of this precursor powder is to undergo further processing and sintering to form the final NCA cathode material.

  • High Energy Density: NCM materials are known for their high energy density, making them suitable for battery applications requiring high energy storage.
  • Excellent Chemical Stability: This precursor has excellent chemical stability, ensuring consistent performance during battery usage.
  • Thermal Stability: NCMOH2 precursor exhibits good thermal stability during battery charge and discharge cycles, enhancing the safety of the battery.

MSE Supplies offers a range of Precursor Powders. Please contact us for more information.

Specifications:

SKU#

PO0553

PO0554

Package

100 g/bottle

500 g/pack

Composition Ni0.8Co0.15Al0.05(OH)2
Configuration Sphere
Particle Size Distribution D50:17.0 ± 2.0 μm
Surface Density ≤ 20.0 m2/g
Tap Density ≥ 1.9g/cm3
Water Content <5000 ppm


Main Element  Measured Content (mol%)
Ni 88.0 ± 0.5
Co 9.0 ± 0.5
Mn 3.0 ± 0.5