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Mesocarbon Microbeads (MCMB) Graphite Micron Powder for Lithium Ion Battery

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SKU:
NG08BE0307
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€210.00
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Description

500 grams/210                     
1000 grams/369 

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Mesocarbon Microbeads (MCMB) Graphite Micron Powder for Lithium Ion Battery

Mesocarbon Microbeads (MCMB) Graphite Micron Powder is a premium-grade, highly graphitized carbon material characterized by its unique spherical morphology and exceptional structural uniformity. Produced through a meticulous thermal treatment and graphitization process, this advanced material features an ultra-high fixed carbon purity, minimal ash residues, and strict moisture control. Its ordered crystalline structure and isotropic characteristics impart excellent electrical conductivity, high tapped density, and a optimized specific surface area. Designed for demanding electrochemical environments, MCMB graphite provides outstanding structural stability during cyclic operations, ensuring minimal volume expansion and superior charge-discharge efficiency.

Technical Properties

Average Particle Size (D50) 9-15 μm
Maximum Particle Size (Dmax) ≤50 μm
Carbon Content ≥99.95%
Tapped Density ≥1.2 g/cm³
True Density ≥2.2 g/cm³
Spesific Surface Area 1.2-2.2 m²/g
Initial Discharge Capacity ≥320 mAh/g
Initial Coulombic Efficiency ≥93%
Ash Content ≤0.05%
Moisture Content ≤0.2%

Applications

  • Lithium-Ion Battery Anodes: Due to its high initial discharge capacity, excellent initial coulombic efficiency, and isotropic spherical structure, it is widely utilized as a premium anode active material in high-performance lithium-ion batteries to maximize energy density and structural endurance.
  • Electric Vehicles (EVs) and Energy Storage: Thanks to its high tapped density and superior structural stability during cycling, it is heavily adopted in power batteries for electric vehicles and large-scale energy storage systems that require rapid charge-discharge rates and extended cycle life.
  • Consumer Electronics: It is integrated into the battery cells of smartphones, laptops, and portable electronics, leveraging its balanced specific surface area and high purity to deliver reliable electrochemical performance and long-term safety.
  • Conductive Additives and Composites: Utilizing its high fixed carbon content and exceptional electrical conductivity, it is successfully employed as a functional filler in conductive polymers, coatings, and advanced carbon composites.
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