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4.55V high-voltage LiCoO2 LCO cathode powder with capacity ≥200 mAh/g by Atomfair for lithium-ion batteries.

ATOMFAIR® L507 High-Voltage LCO Cathode Powder 4.55V

Price range: $300.00 through $520.00

Lithium Cobalt Oxide (LiCoO2) is a premier cathode material recognized for its high energy density and excellent electrochemical performance. This product is tailored for use in rechargeable lithium-ion batteries, making it suitable for applications ranging from mobile devices to electric vehicles and energy storage systems.

SKU: AAEMLCO000A0A0
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Description

ATOMFAIR® L507 LITHIUM COBALT OXIDE POWDER

RESEARCH GRADE MATERIAL

Product Overview
The ATOMFAIR® L507 formulation establishes exceptional cell-to-cell consistency and serves as a dependable baseline testing control for high-voltage consumer electronic cells, pouch configurations, and polymer systems. By optimizing structural core pathways, this material guarantees the elimination of electrochemical variables while providing a robust validation platform for high-density applications. Secure competitive industrial standard lithium cobalt oxide price options for premium laboratory-scale and commercial development workflows.

Technical Specifications

PARAMETER DETAILS
1. Core Device & Electrochemical Design
0.1C First Discharge Capacity @ 3.0-4.5V 184.0 ± 4.0 mAh/g
0.1C First Efficiency / Voltage Window ≤ 93 % | 3.0V ~ 4.45V
2. Cathode (Positive Electrode) Parameters
Lithium (Li) / Cobalt (Co) Content Li: 7.2 ± 0.5 % | Co: 59.3 ± 1.5 %
Special Dopants (Mg / Al / Ti) Mg: 1300 ± 250 ppm | Al: 6750 ± 400 ppm | Ti: 760 ± 200 ppm
Special Dopants (Zr / La / Y) Zr: 350 ± 200 ppm | La: 370 ± 200 ppm | Y: 650 ± 200 ppm
Residual Base Content (Li2CO3 / LiOH) Li2CO3 ≤ 0.02 % | LiOH ≤ 0.01 %
3. Trace Impurities & Contamination Metrics
Iron (Fe) / Copper (Cu) / Sodium (Na) Fe ≤ 50 ppm | Cu ≤ 50 ppm | Na ≤ 200 ppm
Calcium (Ca) / Manganese (Mn) / Zinc (Zn) Ca ≤ 150 ppm | Mn ≤ 50 ppm | Zn ≤ 50 ppm
Magnetic Impurities (Fe+Ni+Cr+Zn) ≤ 200 ppb
4. Separator & Physical Package Metrics
Particle Size Distribution (D50) 5.5 ± 2.0 μm (D10 ≤ 4.5 μm, D90 10.0 ± 3.5 μm)
Specific Surface Area (BET) / pH 0.35 ± 0.10 m²/g | 10.4 ± 0.8
Tap Density / Moisture Content ≥ 1.80 g/cm³ | ≤ 400 ppm
Manufacturing Rules Processed under strict SJ/T11363-2006 standard compliance conditions.
Alternative Options Explore our related catalog or custom dimensions. For urgent technical custom requests or bulk inquiries, please contact our support team.

Key Features & Advantages
  • Multi-Element Chemical Doping: Advanced engineered matrix lattice featuring controlled Mg, Al, Ti, Zr, La, and Y trace stabilization to preserve lattice networks under deep state-of-charge states.
  • High-Voltage Stability Platform: Formulated to maintain stable cycle life up to an operating threshold of 4.45V, eliminating parasitic electrolyte oxidation pathways.
  • Controlled Particle Structure: Features an optimized D50 sizing threshold of 5.5 microns to maximize tap density packing efficiencies within polymer thin-film layers.

APPLICATION SCOPE: Liquid secondary lithium systems, advanced consumer electronic cell designs, and polymer pouch thin-foil validation.
PACKAGING: 25kg plastic drums lined with inner PE protective bags or 500kg woven bags lined with defensive aluminum foil shields.
IMPORTANT NOTICE: To fully eliminate structural failures or performance fading, store products in dry, climate-regulated areas with parameters strictly maintained between -5°C to 45°C and relative ambient humidity conditions below ≤75% RH.

Frequently Asked Technical Questions

Why is L507 preferred as a polymer lithium battery cathode material?

L507 functions as a premier polymer lithium battery cathode material for advanced commercial systems. It delivers optimized volumetric cell density and reliable structural retention up to high-voltage cut-offs of 4.45V during laboratory testing workflows.

how to prevent cathode material thermal degradation?

To successfully solve how to prevent cathode material thermal degradation without secondary contamination, this material must be handled strictly according to climate-regulated environments between -5°C to 45°C before thermal processing.

How does L507 compare to traditional alternative options regarding operational stability?

Compared to standard alternatives, the optimized matrix of L507 incorporates multi-element atomic doping (including Lanthanum and Yttrium). This unique architecture dramatically enhances structural resistance against degradation, preserving long-term validation integrity.

What material processing benefits does the microstructure of L507 offer?

Boasting engineered particle structuring and an optimized narrow particle sizing envelope (D50 of 5.5 μm), this product offers superior sinterability. The controlled form factor facilitates lower thermal processing thresholds and promotes ideal grain boundary integration during cell fabrication.

How is the phase purity and quality control of this research-grade batch validated?

Every competitive batch undergoes rigid analytical quality validation testing. Total elemental and metallic impurities are strictly regulated below strict industry thresholds to eliminate parasitic electronic leakage and maintain uncompromised data reproducibility.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

Additional information

Weight 0.2 kg
weight

200g, 1000g

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