BTR BN-P2C Sodium-Ion NFM Cathode Material 1kg

Name: BTR BN-P2C Sodium-Ion NFM Cathode Material

Material Type: Sodium Nickel Iron Manganese Oxide (NFM) Cathode Material for Sodium-Ion Batteries

Product Code: BN-P2C

Brand: BTR

Product Introduction:

The BTR BN-P2C is a sodium nickel iron manganese oxide (NFM) cathode material designed for sodium-ion (Na-ion) batteries, with Na / Ni / Fe / Mn composition of 16.9 / 12.7 / 12.1 / 23.5 wt%. The material is characterized by a manganese-rich composition with D50 9.9 μm, tap density 1.45 g/cm³, and 2-ton powder compaction density 2.84 g/cm³. The material delivers 130.2 mAh/g first-cycle discharge capacity at 0.1C and 118.4 mAh/g at 1C in 2.0–4.1 V half cells (1M NaPF₆ in diglyme), with 96.3% first-cycle efficiency and 97.9% capacity retention after 50 cycles at 1C.

Key Features:

Sodium-ion battery cathode chemistry — Na / Ni / Fe / Mn 16.9 / 12.7 / 12.1 / 23.5 wt%
0.1C charge capacity 130.2 mAh/g (2.0–4.1 V, half cell)
1C reversible capacity 118.4 mAh/g
High first-cycle efficiency 96.3%
Excellent cycle stability — 97.9% capacity retention after 50 cycles at 1C
Particle size distribution — D10 5.6 μm / D50 9.9 μm / D90 17.9 μm
Tap density 1.45 g/cm³, 2-ton compaction density 2.84 g/cm³
Low specific surface area 0.52 m²/g
Low surface alkali — NaOH 0.5 wt%, Na₂CO₃ 0.11 wt%
Tested in half cells with 1M NaPF₆ in diglyme, 2.0–4.1 V voltage window

Chemical Composition:

Particle Size Distribution (PSD):

Physical Properties:

Surface Alkali:

Electrochemical Performance (Half-Cell, 1M NaPF₆ in Diglyme, 2.0–4.1 V):

Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.

Shelf Life:

180 days under low humidity (less than 10% RH).

Handling & Storage:

This product is air-sensitive. Do not expose it to ambient environment for extended periods — seal the material promptly after each use, and baking before use is recommended to remove absorbed moisture. Store under low humidity (< 10% RH) to maintain the rated 180-day shelf life.

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. The BN-P2C is a sodium-ion battery cathode material — formulation, electrolyte selection (this product is evaluated with diglyme-based electrolyte), and cell design considerations differ from lithium-ion NCM/LFP/LMFP cathodes; consult published sodium-ion literature and our technical team for guidance on specific Na-ion electrode protocols. For complete 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). For other BTR sodium-ion cathode products, see also BTR BN-O3A/B Sodium-Ion NFM Cathode. For other BTR cathode products, see BTR M2-S Single-Crystal Ni83 NCM Cathode, BTR M1-S2 Cathode Material, and BTR M9-FC Polycrystalline NCM Cathode.