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Black ATOMFAIR® silicon carbon powder inside a clear egg-shaped glass display bottle on a bright plain background.

Silicon Carbon Anode Powder 2380 mAh/g Res Grade ATOMFAIR®

Price range: $300.00 through $800.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Research grade silicon-carbon anode powder with 2380 mAh/g reversible capacity and 94.56% initial coulombic efficiency for advanced Li-ion batteries. Order now.

SKU: AF-BM-P-ASIC-2380M-1K0
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Description

ATOMFAIR® 2380 MAH/G HIGH-EFFICIENCY SILICON CARBON POWDER

RESEARCH GRADE | HIGH-CAPACITY ADVANCED ANODE

Product Overview
Achieve uncompromised cell-to-cell consistency and robust baseline testing control with ATOMFAIR® 2380 mAh/g High-Efficiency Silicon Carbon Powder. This premium lithium-ion battery anode material eliminates chemical variables during core electrolyte validation testing. Engineered to deliver extreme energy storage thresholds exceeding 2380 mAh/g while maintaining a highly suppressed surface reactivity footprint, it matches premium industrial targets while securing reliable silicon carbon anode material price efficiencies for institutional researchers.

Technical Specifications

PARAMETER DETAILS
1. Core Device & Electrochemical Design (0.1C)
2V Reversible Capacity Matrix 2381 mAh/g
2V Initial Coulombic Efficiency 94.56 %
0.8V Reversible Capacity Matrix 2140 mAh/g
0.8V Cycle Efficiency Rating 84.99 %
2. Powder Resistivity & Density Parameters
Powder Resistivity (@ 20MPa) 1.95 Ω·cm
Compacted Density (@ 20MPa) 1.07 g/cm³
Tapped Density Metric 1.07 g/cm³
3. Particle Size & Surface Area Profiles
Particle Size Footprint D10: 4.152 μm | D50: 6.781 μm | D90: 11.403 μm
Particle Sizing Span Profile 1.07
Specific Surface Area (BET) 1.70 m²/g
Manufacturing Rules Synthesized via strict high capacity silicon carbon anode parameter rules to control volume expansion profiles through integrated matrix shielding.
4. Alternative Configurations & Sizing
Manufacturing Rules Processed under strict ISO standard battery manufacturing compliance conditions
Alternative Options Explore our extended catalog for variants with diverse size spans or alternative density profiles. For custom engineering quotes, contact our technical support division.


Key Features & Advantages
  • Industry-Leading Capacity Baseline: Exceptional reversible capacity metrics reaching 2381 mAh/g deliver immense energy density boosts compared to traditional carbon anodes.
  • Superior Initial Coulombic Efficiency: A 94.56% first-cycle efficiency locks in highly efficient utilization of lithium ions within the cell structure.
  • Highly Stable Microstructure: An ultra-low specific surface area of 1.70 m²/g effectively curtails electrolyte absorption and minimizes continuous parasitic side reactions.
  • Optimized Particle Balancing: Engineered median sizing (D50: 6.781 μm) facilitates outstanding powder homogeneity and flawless electrode slurry coating uniformity.

APPLICATION SCOPE: High-range electric vehicle power batteries, advanced high-rate power tools, grid-scale energy storage systems (ESS), and next-generation anode R&D.
APPEARANCE: Uniform black powder texture, verified to pass macroscopic inspection tests without visible cluster anomalies.
IMPORTANT NOTICE: Technical metrics are validated via standard laser diffraction (Mastersizer 3000) and premium battery analyzers (Blue Electric CT3002A). Store inside tightly sealed airtight containment cells away from air or humidity to address how to minimize silicon carbon anode volume expansion effectively.

TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: INQUIRY@ATOMFAIR.COM
Manufacturer: ATOMFAIR LLC
Brand: ATOMFAIR®

The powder requires compaction under a specified pressure to achieve its electrochemical performance targets. No additional processing constraints are explicitly stated for this material.

  • Compaction Pressure Requirement: Compaction at 20 MPa is required to obtain the stated powder resistivity and compacted density.

How does the reversible capacity of this silicon carbon anode vary with the cutoff voltage, and what is the capacity penalty for operating at a lower 0.8V cutoff compared to 2V?

The reversible capacity at a 2V cutoff is 2381 mAh/g, while at a 0.8V cutoff it is 2140 mAh/g, representing an approximate 10% reduction. This voltage-dependent capacity is a critical parameter for matching with cathode capacity and designing the full-cell voltage window.

Is this silicon carbon anode powder intended specifically for electrolyte validation testing, and what limitations does its surface reactivity profile impose on integrating it into full-cell designs with different cathode materials?

Yes, this powder is specifically designed to eliminate chemical variables during core electrolyte validation testing. Its ultra-low specific surface area of 1.70 m²/g and high initial coulombic efficiency of 94.56% suppress parasitic side reactions, ensuring that performance differences across electrolyte chemistries can be attributed solely to the electrolyte itself.

What infrastructure is required to achieve the reported compacted density of 1.07 g/cm³ during electrode fabrication, and how does it affect coating thickness control?

Achieving the compacted density of 1.07 g/cm³ requires only 20 MPa applied pressure, indicating that standard calendering equipment can easily reach this density without excessive force. The fine particle size distribution (D50: 6.781 μm) promotes uniform coating and consistent electrode thickness, enabling reliable cell-to-cell reproducibility.

The ATOMFAIR 2380 mAh/g Silicon-Carbon Anode Powder delivers industry-leading reversible capacity and high initial coulombic efficiency for high-energy-density lithium-ion battery research, though its low tapped density and moderate powder resistivity impose specific electrode formulation and processing requirements.

Positive

  • Extreme Reversible Capacity: A measured 2381 mAh/g reversible capacity at 0.5C enables substantial energy density improvements over conventional carbon anodes, directly supporting next-generation battery architectures.
  • High Initial Coulombic Efficiency: A first-cycle efficiency of 94.56% locks in efficient lithium utilization, minimizing irreversible capacity loss and reducing electrode over-sizing for practical cell designs.

Trade-offs

  • Low Tapped Density: A tapped density of 1.07 g/cm³ requires larger coating volumes to achieve target areal loadings, potentially leading to thicker electrodes and increased electrolyte wetting time.
  • Moderate Resistivity at Compression: Powder resistivity of 1.95 Ω·cm under 20 MPa may increase the required conductive additive fraction in composite electrodes, impacting total energy density and cost at scale.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

Additional information

weight

200g, 1000g

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