Iron Foam
Iron Foam is a high-porosity, lightweight, and conductive material designed for advanced battery and supercapacitor applications. With a purity of 98% iron (Fe) and a porous structure, this foam serves as an ideal current collector and electrode substrate, enhancing electrochemical performance in energy storage systems, fuel cells, and electrochemical catalysis.
This iron foam sheet (300 × 200 mm, 2 mm thick) provides high surface area, excellent electrical conductivity, and superior mechanical strength, making it a preferred choice for next-generation energy storage devices. It is widely used in battery research laboratories, supercapacitor development, and hydrogen production applications.
Key Features
| Feature | Description |
|---|---|
| High Purity (98%) | Ensures excellent conductivity and electrochemical stability. |
| Porous Structure | Maximizes active material loading and reaction efficiency. |
| High Surface Area | Enhances charge transfer and ion diffusion for improved battery performance. |
| Lightweight & Durable | Provides mechanical robustness with minimal weight. |
| Excellent Conductivity | Reduces internal resistance for high-efficiency energy storage. |
| Corrosion Resistance | Offers long-term stability in various electrochemical environments. |
Applications
| Application | Description |
|---|---|
| Lithium-ion & Sodium-ion Batteries (LIB & SIB) | Used as current collector and electrode support. |
| Supercapacitors | High-performance energy storage applications. |
| Fuel Cells | Hydrogen production and electrolysis. |
| Electrochemical Sensors & Catalysis | Supports chemical reactions and sensing applications. |
| Battery R&D & Material Science Experiments | Ideal for research laboratories and experimental studies. |
Iron Foam is an innovative and cost-effective solution for improving battery performance and efficiency. Its high surface area, conductivity, and mechanical durability make it an excellent choice for cutting-edge energy storage and conversion technologies.
