Ronbay S760 Polycrystalline NCM613 Cathode

Ronbay S760 Polycrystalline NCM613 Cathode Material 1kg

SKU: S760

$565.00

Ronbay S760 Polycrystalline NCM613 Cathode — polycrystalline NCM613 with Ni/Co/Mn 38.56/6.55/18.25 wt%, D50 12.80 μm, tap density 2.42 g/cm³, S.S.A 0.25 m²/g.

Half-cell testing at 0.1C, 4.3–3.0 V, 25°C delivers ≥ 170 mAh/g specific capacity. Spherical-type morphology, XRD shows no impurity peaks.

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Name: Ronbay S760 Polycrystalline NCM613 Cathode

Material Type: Polycrystalline Lithium Nickel Cobalt Manganese Oxide NCM613

Product Code: S760

Brand: Ronbay

Product Introduction:

The Ronbay S760 is a polycrystalline NCM613 cathode material with Ni / Co / Mn 38.56 / 6.55 / 18.25 wt%. The material is supplied as a black powder with D50 12.80 μm, tap density 2.42 g/cm³, and specific surface area 0.25 m²/g. SEM confirms spherical-type / quasi-spherical secondary-particle morphology, and XRD shows no impurity peaks. The S760 is broadly applicable to a wide range of steel-can, aluminum-can, and polymer lithium-ion battery products.

Key Features:

Polycrystalline NCM613 chemistry — Ni/Co/Mn 38.56/6.55/18.25 wt%
Half-cell capacity ≥ 170 mAh/g at 0.1C, 4.3–3.0 V, 25°C
High tap density 2.42 g/cm³ supports high electrode loading
Particle size distribution — D10 7.41 μm / D50 12.80 μm / D90 21.11 μm
Low specific surface area 0.2503 m²/g
Low moisture content 0.0134 wt%
Low impurity content — Fe 18 ppm, Cu 2 ppm, Na 225 ppm, Ca 19 ppm, Mg 35 ppm
Low magnetic impurities 0.015 ppm
Spherical-type / quasi-spherical secondary-particle morphology (by SEM)
XRD confirms phase purity with no impurity phase peaks
RoHS compliant (EU standards)

Chemical Composition:

Element Specification Typical Value
Li (wt%) 7.40 ± 0.20 7.37
Ni (wt%) 38.90 ± 1.00 38.56
Co (wt%) 6.50 ± 1.00 6.55
Mn (wt%) 18.20 ± 1.00 18.25

Impurities & pH:

Item Specification Typical Value
Fe (ppm) ≤ 40 18
Cu (ppm) ≤ 50 2
Na (ppm) ≤ 500 225
Ca (ppm) ≤ 100 19
Mg (ppm) ≤ 200 35
Magnetic Impurities (ppm) ≤ 0.050 0.015
H₂O (wt%) ≤ 0.040 0.0134
pH ≤ 12.00 11.58

Particle Size Distribution (PSD):

Parameter Specification Typical Value
D10 (μm) ≥ 5.00 7.41
D50 (μm) 12.50 ± 2.00 12.80
D90 (μm) ≤ 25.00 21.11

Particle size distribution curve:

Ronbay S760 polycrystalline NCM613 particle size distribution

Physical Properties:

Property Specification Typical Value
Appearance Black powder Black powder
Tap Density (g/cm³) ≥ 2.10 2.42
Specific Surface Area (m²/g) 0.25 ± 0.10 0.2503
Particle Morphology Spherical-type / Quasi-spherical
Crystal Structure No impurity phase peak
RoHS EU standards compliant

SEM Morphology:

SEM imaging confirms spherical-type / quasi-spherical secondary-particle morphology composed of densely packed primary particles, characteristic of polycrystalline NCM613.

SEM at low magnification (50 μm scale bar):

Ronbay S760 polycrystalline NCM613 SEM low magnification

SEM at high magnification (10 μm scale bar):

Ronbay S760 polycrystalline NCM613 SEM high magnification

XRD Pattern:

Ronbay S760 polycrystalline NCM613 XRD pattern

Electrochemical Performance (Half-Cell, 0.1C, 4.3–3.0 V, 25°C):

Parameter Specification
Specific Capacity (mAh/g) ≥ 170

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

Application Areas:

The Ronbay S760 is broadly applicable to a wide range of steel-can, aluminum-can, and polymer lithium-ion battery products.

Packaging:

Vacuum-sealed in aluminum-laminated film bag, placed in plastic drums. Each drum contains 25.00 kg ± 0.02 kg net weight of material.

Shelf Life:

Under vacuum-sealed packaging, store in a cool, dry place. Shelf life: 1 year.

Handling, Storage & Protection:

Avoid impact and inversion during handling. Store in a clean environment at room temperature, cool and dry. Avoid sunlight, heat, and rain during transportation. Use the material immediately after opening the packaging bag; if not used immediately, reseal and store to prevent moisture absorption.

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). For other Ronbay NCM cathodes, see also Xnergy’s Ronbay S740B Single-Crystal NCM Cathode, Ronbay SC60 Single-Crystal NCM Cathode, Ronbay SC92Y Single-Crystal Ni91 NCM Cathode, and Ronbay S8303 Single-Crystal NCM811 Cathode. For NCM613 from another supplier, see Zhenhua E-Chem NCM613 Cathode. For polycrystalline NCM from BTR, see BTR M9-FC Polycrystalline NCM Cathode.

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