High-Performance Iron Oxide Carbon Composite (CFeO₃) – Premium Supplier for Industrial & Research Applications
Chemical Name: Iron Carbon Composite Material
Synonyms: Ferrous Carbonate Composite, Iron Carbon Nanocomposite, Iron Carbon Functional Material
Chemical Formula: FeCO₃-Based Composite
Keywords: Iron Carbon Composite, FeCO₃ Material, Iron Carbon Adsorbent, Battery Material, Water Treatment Material, Catalytic Material
Product Overview
Iron Carbon Composite is a functional material produced by combining iron-based compounds with carbon materials through controlled synthesis processes. The carbon component provides electrical conductivity and structural support, while the iron-containing phase contributes catalytic, adsorption, and electrochemical properties.
The material is available in various particle sizes, carbon contents, and surface area ranges to meet different application requirements. Due to its porous structure and physicochemical characteristics, iron carbon composites are used in energy storage, environmental treatment, catalytic reactions, and advanced material research.
Key Features
Conductive Carbon Framework
The carbon matrix improves electrical conductivity and facilitates electron transfer in electrochemical and catalytic applications.
Structural Stability
The composite structure helps maintain material integrity during repeated reaction cycles and processing conditions.
Developed Surface Area
The porous structure provides active surface sites suitable for adsorption, catalytic reactions, and electrochemical processes.
Adjustable Composition
Carbon content, particle size distribution, and surface area can be customized according to application requirements.
Multi-Functional Material
Suitable for use in environmental, energy storage, and catalytic systems.
Typical Technical Specifications
| Parameter | Typical Value |
|---|---|
| Appearance | Black Powder |
| Purity | ≥99.0% / ≥99.9% |
| Particle Size (D50) | 50 nm – 5 μm |
| Specific Surface Area (BET) | 100 – 500 m²/g |
| Carbon Content | 10% – 40% |
| Loss on Drying | ≤1.0% |
Actual specifications may vary according to product grade and customer requirements.
Applications
Energy Storage Materials
Suitable for research and development of lithium-ion batteries, sodium-ion batteries, and other electrochemical energy storage systems.
Water Treatment
Can be used as an adsorbent or catalyst support for treatment processes involving organic contaminants, dyes, and other pollutants.
Catalytic Applications
Applicable in advanced oxidation processes, heterogeneous catalysis, and environmental remediation systems.
Gas Sensing Materials
Used in research involving gas-sensitive materials for detection of selected gases and chemical compounds.
Functional Composite Materials
Suitable for incorporation into conductive composites, electromagnetic shielding materials, and advanced functional materials.
Packaging and Storage
Packaging
Available in:
1 kg vacuum-sealed bags
5 kg packaging
25 kg packaging
Customized packaging options
Storage Recommendations
Store in a cool, dry, and well-ventilated environment. Keep containers sealed when not in use and protect from excessive moisture exposure.
Technical Support
Technical assistance may include:
Material selection
Particle size customization
Carbon content adjustment
Application evaluation
Product testing support
Sample supply
Selection Considerations
Material selection typically depends on:
Application requirements
Particle size specification
Surface area requirements
Carbon content
Electrical conductivity requirements
Process conditions
Regulatory requirements
Laboratory evaluation is recommended to determine the most suitable grade for specific applications.
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