Description

ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Powder

Name: Silicon Carbon Anode Powder (SC-R07) | 1900+ mAh/g (0.8V) Monodisperse Perfect Spherical Si/C Composite ATOMFAIR®
Brand: Atomfair®
SKU: AF-SC-R07
Availability: InStock

RESEARCH GRADE | HIGH-STABILITY ANODE

Product Overview

Achieve uncompromised cell-to-cell consistency and robust baseline testing control with ATOMFAIR® 2200 mAh/g High-Stability 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 2200 mAh/g while maintaining a highly optimized surface morphology, 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
2V Reversible Capacity Matrix	2234 mAh/g
2V First Cycle Efficiency (ICE)	94.11 %
0.8V Reversible Capacity Matrix	1999 mAh/g
0.8V Cycle Efficiency Rating	84.21 %
2. Powder Resistivity & Density Parameters
Powder Resistivity (@ 20MPa)	1.84 Ω·cm
Compacted Density (@ 20MPa)	1.04 g/cm³
Tap Density Metric	1.04 g/cm³
3. Particle Size & Surface Area Profiles
Particle Size Footprint (D10 / D50 / D90)	D₁₀: 4.659 μm \| D₅₀: 7.462 μm \| D₉₀: 11.787 μm
Particle Sizing Span Profile	0.96
Specific Surface Area (BET)	1.66 m²/g
Manufacturing Rules	Processed under strict high stability silicon carbon anode manufacturing standards, combining advanced laser diffraction tracking and automated dual-stage galvanostatic verification.
Alternative Options	Explore our extended material lines for custom particle sizes or higher capacity distributions. For bulk requirements or industrial quotes, contact our engineering division.

Key Features & Advantages

High First-Cycle Efficiency: Outstanding 94.11% initial efficiency limits irreversible lithium inventory consumption to maximize practical cell capacity.
Optimized Surface Morphology: Low specific surface area of 1.66 m²/g suppresses excessive electrolyte absorption and parasitic interface reactions.
Superior Electrical Transport: Low powder compaction resistivity values (1.84 Ω·cm) minimize electronic impedance across electrode films to support robust rate kinetics.
Precision Sizing Span: A narrow particle distribution span layout of 0.96 with a 7.462 μm median size ensures seamless slurry homogenization and uniform electrode sheet casting.

APPLICATION SCOPE: High-performance lithium-ion anode testing platforms, advanced ESS development grids, EV battery module simulation, and industrial R&D.

APPEARANCE: Uniform black powder texture, verified to pass macroscopic inspection tests without visible cluster anomalies.

IMPORTANT NOTICE: Technical metrics are validated via professional laser profiling (Mastersizer 3000) and premium battery analyzers (Blue Electrical CT3002A). Maintain product storage inside airtight containment grids shielded from air or humidity exposure to address how to minimize silicon carbon anode volume expansion effectively.

Frequently Asked Technical Questions

Why is ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder preferred as a lithium-ion battery anode material?

ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder functions as a premier lithium-ion battery anode material for advanced systems. It achieves a robust 2234 mAh/g reversible capacity platform to provide high-energy capabilities while prioritizing long-term cycling stability, significantly boosting performance metrics and phase purity during laboratory testing workflows.

How to minimize silicon carbon anode volume expansion?

To successfully solve how to minimize silicon carbon anode volume expansion without secondary contamination, this powder features an optimized surface layout with an ultra-low specific surface area (1.66 m²/g) to prevent excessive side reactions and shield active structures during repeated lithiation cycles.

How does ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder compare to traditional alternative options regarding operational stability?

Compared to standard alternatives, the optimized matrix of ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder incorporates specialized chemical doping that achieves highly balanced compaction and tapped density ratios (1.04 g/cm³) alongside a narrow particle width span layout of 0.96. This unique architecture dramatically enhances structural resistance against degradation, preserving long-term validation integrity.

TAILORED SOLUTIONS FOR RESEARCH

Contact our engineering team for technical support or official institutional quotations.

EMAIL: inquiry@atomfair.com

Manufacturer: Atomfair LLC

Brand: ATOMFAIR®

Quality Standards & Performance Verification

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.

Shipping & Returns

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 for completely unopened items).

ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Powder

Description

ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Powder

Product Overview

Technical Specifications

Key Features & Advantages

Frequently Asked Technical Questions

Why is ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder preferred as a lithium-ion battery anode material?

How to minimize silicon carbon anode volume expansion?

How does ATOMFAIR® 2200 mAh/g High-Stability Silicon Carbon Anode Powder compare to traditional alternative options regarding operational stability?

Quality Standards & Performance Verification

Shipping & Returns

Additional information

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