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.

Ampcera LiNbO3 (1.5 wt%) coated Single Crystal NMC Ni82 Cathode Powder– MSE Supplies LLC

Overstock Sale - Select Products 10% Off on Orders of $500 or More! Promo Code:

SAVING10

Shop Now
Menu

This product has been added to the cart.

Ampcera Lithium Niobium Oxide, LiNbO<sub>3</sub> (1.5 wt%) coated Single Crystal NMC Ni82 Cathode Powder, 10g - MSE Supplies LLC

Ampcera Lithium Niobium Oxide, LiNbO3 (1.5 wt%) coated Single Crystal NMC Ni82 Cathode Powder, 10g

SKU: PO0238

  • $ 18595



Ampcera® LiNbO3 (1.5 wt%) coated Single Crystal NMC Ni82 Cathode Powder, 3-5um D50, Cathode Material, 10g

Product Benefit: LiNbOcoated Single Crystal NMC Ni82 Cathode Powder provides superior high rate capability of cathode when being used with solid state electrolyte materials. The coating of LiNbOon Single Crystal NMC Ni82 cathode not only supplied a protective surface coating but also optimized the electrochemical behavior of single crystal NMC Ni82 cathode material. 

Product Number (SKU#): PO0238

Package Size: 10g

Particle Size:

    • D10:  ≥1.0 µm
    • D50:  3.0~5.0 µm
    • D90:  ≤10.0 µm (typical value 5.5 µm)

Supplier: Ampcera Inc. (Ampcera Inside™)

Specifications (Custom made cathode materials with LiNbO3 coating can be provided by Ampcera Inc. upon request. Please contact us for a quote.)

LiNbOCoating: 1.5 wt% of NMC Ni82

Appearance: Ash black color powder

Molecular Formula: LiNi0.82Mn0.07Co0.11O2 NMC (Ni:Mn:Co = 82:7:11)

Material Type: Single crystal NMC Ni82 powder

Chemical Name or Material: Lithium Nickel Manganese Cobalt Oxide

Figure is for reference only.

 Parameter Specifications
Ni+Mn+Co (wt%) 58.5~60.5
Li (wt%) 7.0~7.6
Ni (mol%) 82.0±0.7
Mn (mol%) 6.0±0.5
Co (mol%) 11.0±0.5
Ca (wt%) ≤0.0100
Cu (wt%) ≤0.0020
Fe (wt%) ≤0.0050
Na (wt%) ≤0.0300

Reference:

  1. "One‐pot aprotic solvent‐enabled synthesis of superionic Li‐argyrodite solid electrolyte." International Journal of Energy Research 46.12 (2022): 17644-17653.
  2. "Surface Coatings for Cathodes in Lithium Ion Batteries: From Crystal Structures to Electrochemical Performance." Journal of The Electrochemical Society 169.4 (2022): 043504.