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ATOMFAIR® nano conductive carbon black fine black powder inside a clear egg-shaped glass display bottle.

Nano Carbon Black Super P 400g Research Grade ATOMFAIR®

$266.00

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 Super P Li carbon black, 400g. 40-50 nm particle size, 62 m²/g surface area. Ash ≤0.01%, iron ≤5 ppm. Ideal Li-ion battery additive. In stock.

SKU: AFMSBXRP684
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Description

ATOMFAIR® CONDUCTIVE CARBON BLACK (SUPER P LI)

RESEARCH GRADE MATERIAL | COMPOSITE BATTERY ADDITIVE

Product Overview
ATOMFAIR® Conductive Carbon Black (Super P Li, abbreviated as SP) is a mainstream international additive engineered for cathodes and anodes of lithium-ion batteries. Produced via a precise furnace black-like (“MMM” method) process, it serves as a baseline platform for evaluating active particle formulations due to its extreme versatility and wide system adaptability. Its structural powder layout exhibits a highly branched aggregate formation with excellent dispersion performance, providing researchers complete validation control while securing reliable conductive carbon black price efficiencies.

Technical Specifications

PARAMETER SPECIFICATION VALUE
1. Electrochemical & Physical Indicators
Primary Particle Size 40 ~ 50 nm
Specific Surface Area 62 m²/g
Powder Conductivity 10 ~ 15 S/cm
Density 160 Kg/m³
pH Value 10
2. Purity & Contamination Thresholds
Moisture Content ≤ 0.1%
Ash Content ≤ 0.01%
Total Iron Content ≤ 5 ppm
Manufacturing Standards Processed under strict [strict technical quality validations] compliance routines to keep metallic impurity variables and volatile species within exceptionally low thresholds, preventing early cell failure loops.
Alternative Options Explore our extended lithium-ion battery material catalog for ultra-high surface area options like Ketjenblack EC600-JD, carbon nanotubes (CNTs), or high-purity graphene flakes. Contact support for volume institutional quotes.


Key Features & Core Advantages
  • Ultra-High Analytical Purity: Low fundamental impurity content (ash ≤ 0.01%, total iron ≤ 5 ppm) safeguards long-term device capacity retention and data tracking accuracy.
  • Excellent Electronic Transport: Pushes outstanding powder electrical pathways (10~15 S/cm), lowering overall electrode impedance across thin casting films with minimal required dosages.
  • Chain-Like Percolation Network: Primary particles (40~50 nm) group systematically into 150–200 nm primary aggregates. These construct a robust branched grid with battery active materials.
  • Optimized Ionic Conductivity: Balanced specific surface layout (62 m²/g) uniformizes electrolyte fluid absorption across electrode layers to boost charge transfer rates.

APPLICATION SCOPE: Conductive additive for high-purity cathodes and anodes across assorted standard lithium-ion or sodium-ion battery architectures.
STORAGE REQUIREMENTS: Packaged in secure bottled containers. Maintain at room temperature within a well-ventilated, de-humidified, cool, and dark inventory grid.
PRECAUTIONS & OPERATIONAL NOTICE: Fine carbon blacks exhibit rapid hygroscopic kinetics. Prevent ambient exposure as absorbed moisture directly disrupts active slurry blending and performance tracking. Slurry formulation technicians must employ optimized high-shear protocols to handle **how to disperse conductive carbon black** aggregates seamlessly without mass clumping.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

This carbon black powder exhibits a specified maximum moisture content of 0.1% and must be stored in sealed containers in a dry environment to prevent moisture uptake. The powder's alkaline pH of 10 requires compatibility with acidic components during slurry formulation.

  • Moisture Control: Maintain storage in a low-humidity environment to keep moisture content below the specified 0.1% threshold.

How does the 40–50 nm primary particle size of ATOMFAIR conductive carbon black affect the percolation threshold and required loading in lithium-ion battery electrodes compared to larger-particle carbon blacks?

The 40–50 nm primary particles agglomerate into branched structures of 150–200 nm that form efficient percolating networks at low loadings. Combined with a powder conductivity of 10–15 S/cm and a specific surface area of 62 m²/g, this morphology enables minimal dosage to meet conductivity demands, reducing electrode cost while maintaining electronic and ionic transport.

Is ATOMFAIR Super P Li conductive carbon black compatible with aqueous slurry processing for lithium-ion battery electrodes given its pH and moisture sensitivity?

The product has a pH of 10 and a moisture content ≤0.1%, and the manufacturer explicitly warns that moisture absorption may impair conductive performance. While the branched agglomerate structure provides excellent dispersion in standard NMP-based slurries, the alkaline pH may be problematic with water-sensitive binders or cathode materials; compatibility testing is recommended for aqueous systems.

What specific storage and handling precautions are required to maintain the conductivity and dispersion quality of ATOMFAIR conductive carbon black?

Store sealed at room temperature in a dry, cool, dark, well-ventilated area. Prevent moisture absorption at all costs, as it degrades electronic conductivity and application effectiveness. The fine powder (40–50 nm primary particles) generates airborne dust, so use local exhaust ventilation, grounding to avoid static discharge, and appropriate personal protective equipment.

This Conductive Carbon Black (Super P Li) offers research-grade purity and branched nanostructure for efficient conductive networks in lithium-ion battery electrodes. Its moisture sensitivity and specific storage requirements necessitate careful handling in laboratory settings.

Positive

  • Ultra-High Purity for Battery Stability: Ash content ≤0.01% and total iron ≤5 ppm minimize contamination, ensuring consistent electrochemical performance in lithium-ion cells.
  • Branched Agglomerate Enhances Conduction: Primary particles (40-50 nm) form branched agglomerates that create effective chain-like conductive networks with active materials, improving electronic conductivity at low loading.

Trade-offs

  • Moisture Absorption Compromises Conductivity: The product requires storage in a sealed container in dry conditions; moisture absorption can degrade conductive performance as noted in the precautions.
  • Controlled Ambient Storage Conditions Required: Storage must be at room temperature in a well-ventilated, dry, cool and dark environment to maintain material integrity and performance.

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).

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