Ronbay Skyland M6P Cathode Material

Ronbay Skyland M6P Cathode Material 1kg

SKU: M6P

$398.00

Ronbay Skyland M6P Cathode Material — lithium manganese iron phosphate with D50 3.77 μm, tap density 1.15 g/cm³, S.S.A 13.46 m²/g.

Coin-cell testing at 0.2C, 2.5–4.5 V delivers 182.7 mAh/g with 94.07% first-cycle efficiency.

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Name: Ronbay Skyland M6P Cathode Material

Material Type: Lithium Manganese Iron Phosphate Cathode Material

Product Code: M6P

Brand: Skyland (subsidiary of Ronbay)

Product Introduction:

The Ronbay Skyland M6P Cathode Material is a lithium manganese iron phosphate cathode powder developed by Skyland. The material is supplied as a fine grey-black powder with a tap density of 1.15 g/cm³ and a specific surface area of 13.46 m²/g, and is suitable for laboratory and small-batch lithium-ion cell development.

Key Features:

First-cycle discharge capacity 182.7 mAh/g at 0.2C, 2.5–4.5 V
First-cycle efficiency 94.07% at 0.2C, 2.5–4.5 V
Particle size distribution — D10 0.319 μm / D50 3.771 μm / D90 14.253 μm
Tap density 1.15 g/cm³ and S.S.A 13.46 m²/g
Carbon content 1.26 wt%
Grey-black powder, uniform color, no agglomeration

Chemical Composition:

Element Typical Test Value
Li (wt%) 5.26
Mn (wt%) 14.61
Fe (wt%) 9.25
P (wt%) 13.59
Ni (wt%) 15.72
C (wt%) 1.26

Particle Size Distribution (PSD):

Parameter Typical Test Value
D10 0.319 μm
D50 3.771 μm
D90 14.253 μm
Dmax 28.33 μm

Physical & Chemical Properties:

Property Typical Test Value
Tap Density 1.15 g/cm³
Specific Surface Area (S.S.A) 13.46 m²/g
Moisture 664 ppm
pH 10.36
Appearance Grey-black powder, uniform color, no agglomeration

Electrochemical Performance (Coin Cell, 0.2C, 2.5–4.5 V, CC/CV):

Parameter Typical Test Value
First-Cycle Discharge Capacity 182.7 mAh/g
First-Cycle Efficiency 94.07 %
C-Rate 0.2C
Voltage Window 2.5 – 4.5 V

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

Application Areas:

Lithium-ion battery cathode for laboratory and small-batch cell development
Coin-cell, pouch-cell, and prismatic-cell laboratory cell development
Cathode-slurry coating research with controlled fine-particle phosphate powder
Electrode formulation studies on phosphate-based cathode systems
Materials science research on lithium phosphate cathode chemistry

Recommended Handling:

M6P should be handled in a dry environment to minimize moisture pickup. Store in a sealed container in a cool, dry place away from acidic vapors and reducing atmospheres. For slurry preparation, use appropriate solvent (NMP for PVDF binder systems, or water-based binder systems for aqueous processing) and follow standard cathode-slurry formulation protocols (active material + conductive carbon + binder). Coat onto aluminum current collector using a film coater (e.g., XN-VC-300, XN-VCH-300, XN-SDC) followed by drying and calendering (e.g., XN-CRPE or XN-HRPE roller press series).

Packaging & Storage:

Standard packaging is in sealed aluminum-foil bags inside lined drums. Store in a cool, dry environment away from heat sources, direct sunlight, acidic vapors, and reducing atmospheres. Once opened, reseal the inner bag promptly. For best results, store under sealed, dry conditions and use within the manufacturer-specified shelf life.

Safety:

For research and industrial use only. Wear appropriate PPE (chemical-resistant gloves, safety glasses, lab coat, dust mask or respirator) when handling M6P powder, especially during weighing, transfer, and slurry preparation. Avoid generating dust; transfer powders in a fume hood or with local exhaust ventilation. Avoid contact with skin and eyes; in case of contact, flush with water and seek medical attention. The material contains lithium, manganese, iron, nickel, and phosphorus compounds — handle and dispose of in accordance with local environmental and occupational health regulations. Refer to the included Safety Data Sheet (SDS) for complete safety information.

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 — consult published literature and our technical team for guidance on specific electrode protocols. The Ronbay Skyland M6P is a phosphate-based cathode material suitable for laboratory and small-batch cell development. 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). For other phosphate-based cathode products in our catalog, see also Xnergy’s Ronbay Skyland LMFP64 Cathode Material and Ronbay Skyland LMFP73 Cathode Material. For NCM ternary cathodes, see also Xnergy’s Single-Crystal NCM523 Cathode, NCM613 Cathode, NCM Ternary Cathode (ZH6200), and High-Nickel NCM9000 Cathode.

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