BTR M9-FC Polycrystalline NCM Cathode Material 1kg
SKU: M9-FC
$565.00
BTR M9-FC Polycrystalline NCM Cathode Material — polycrystalline NCM with D50 10.23 μm, tap density 2.45 g/cm³, S.S.A 0.40 m²/g, low surface lithium residues (LiOH 0.362 wt%, Li₂CO₃ 0.201 wt%).
Coin-cell testing at 0.1C/0.1C, 3.0–4.3 V vs Li⁺/Li delivers 230.8 mAh/g with 93.0% first-cycle efficiency.
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Name: BTR M9-FC Polycrystalline NCM Cathode
Material Type: Polycrystalline Lithium Nickel Cobalt Manganese Oxide (NCM)
Product Code: M9-FC
Brand: BTR
Product Introduction:
The BTR M9-FC is a polycrystalline lithium nickel cobalt manganese oxide (NCM) cathode material with D50 10.23 μm, tap density 2.45 g/cm³, and specific surface area 0.40 m²/g. The polycrystalline morphology supports high tap density and high electrode loading, and the material delivers 230.8 mAh/g discharge capacity with 93.0% first-cycle efficiency in coin-cell testing at 0.1C, 3.0–4.3 V vs Li⁺/Li.
Key Features:
Polycrystalline NCM morphology — high tap density supports high electrode loading
0.1C discharge capacity 230.8 mAh/g (3.0–4.3 V vs Li⁺/Li, coin cell)
First-cycle efficiency 93.0%
High tap density 2.45 g/cm³
Particle size distribution — D10 5.19 μm / D50 10.23 μm / D90 18.79 μm
Low specific surface area 0.40 m²/g
Low surface lithium residues — LiOH 0.362 wt%, Li₂CO₃ 0.201 wt%
Low moisture content 245 ppm
100% passes 325 mesh standard screening
Particle Size Distribution (PSD):
| Parameter | Value |
|---|---|
| Dmin (μm) | 0.88 |
| D10 (μm) | 5.19 |
| D50 (μm) | 10.23 |
| D90 (μm) | 18.79 |
| Dmax (μm) | 31.09 |
Particle size distribution curve:
Physical & Chemical Properties:
| Property | Value |
|---|---|
| Moisture (ppm) | 245 |
| Tap Density (g/cm³) | 2.45 |
| Specific Surface Area BET (m²/g) | 0.40 |
| pH | 11.64 |
| Residual LiOH (wt%) | 0.362 |
| Residual Li₂CO₃ (wt%) | 0.201 |
| Sieving (325 mesh) | 100% Pass |
Electrochemical Performance (CR2016 Coin Cell, 0.1C/0.1C, 3.0–4.3 V vs Li⁺/Li):
| Parameter | Value |
|---|---|
| Capacity (mAh/g) | 230.8 |
| First-Cycle Efficiency (%) | 93.0 |
Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.
Note: Specifications listed above are typical and for reference only. Actual electrochemical performance depends on the specific cell architecture, electrolyte formulation, binder/conductive-additive composition, coating thickness, calendering parameters, formation protocol, and testing conditions. For complete lithium-ion battery electrode preparation workflows, see also Xnergy’s related products in the Cathode Materials category, Anode Materials category, Binders category, and Current Collectors category. For electrode-coating equipment, see the Coating equipment category including Automatic Film Coater XN-VC-300, XN-VCH-300, and Slot-Die Coating System XN-SDC. For electrode calendering, see the Calendering equipment category. For mixing and drying, see Planetary Vacuum Mixer and Three-Door Vacuum Drying Oven (XN-DVO-3). See also Xnergy’s other BTR cathode products: BTR M2-S Single-Crystal Ni83 NCM Cathode and BTR M1-S2 Cathode Material. For other NCM cathodes in our catalog, see also Zhenhua E-Chem Single-Crystal NCM523 Cathode, Zhenhua E-Chem NCM613 Cathode, EASPRING ME-93SC Single-Crystal NCM Cathode, and Ronbay S8303 Single-Crystal NCM811 Cathode.
