Ni0.167Co0.167Mn0.666(OH)2 Precursor Powder for Manganese-Rich NCM114 Cathode Synthesis, 50 or 100 g/bottle, CLIBPCMRNCM114OH
Use your own shipping account?
We support FedEx, UPS, and DHL third-party billing for institutional customers.
Place your order first, then email shipping@echemsupplies.com with your account details and order number. We'll generate the label using your account and refund your shipping charges, less a handling fee.
The Ni0.167Co0.167Mn0.666(OH)2 precursor powder with spherical morphology is obtained by co-precipitation method, which can be mixed with lithium salts (eg: LiOH) to synthesize manganese-rich NCM114 cathode. The precursor reacts with the lithium source at temperatures typically between 800-950 degrees to form the final layered oxide cathode material.
| Part Number |
CLIBPCMRNCM114OH (C-LIB-PC-MRNCM114OH) |
| Chemical Composition |
Ni: 16.7 mol%, Co: 16.7 mol%, Mn: 60.6 mol% |
| Particle Size Distribution |
D10 = 7.9 um; D50 =10.0 um; D90 = 12.6 um |
| Tap Density | 1.72 g/cm3 |
| Specific Area | 25.8 m2/g |
| Package Grade | 50 or 100 g/bottle |
Notes: (1) Please store the MRNCM114OH precursor powder in a dry area (glovebox is preferred); (2) The battery powder is highly recommended to be dried at 80-100°C in a vacuum oven for 6-12 h before use.
References:
- J. Sicklinger, et al. SO3 Treatment of Lithium- and Manganese-Rich NCMs for Li-Ion Batteries: Enhanced Robustness towards Humid Ambient Air and Improved Full-Cell Performance, J. Electrochem. Soc., 2020, 167, 130507.
- T. Tsekeli, et al. Microwave Engineering of Manganese-Rich Layered-Spinel Cathode Materials for Enhanced Lithium-Ion Battery Performance, ChemElectroChem, 2025 10.1002/celc.202500331.