High-Purity Nickel Foil (99.9+%)
This high-purity Nickel Foil (99.9+%) is an ultra-thin, high-conductivity metal foil designed for battery applications, electrical conductivity, and industrial uses. With a thickness of just 0.03 mm and a width of 100 mm, this precision-engineered nickel foil offers excellent mechanical strength, thermal stability, and corrosion resistance.
Nickel foil is widely used in lithium-ion battery manufacturing, fuel cells, supercapacitors, and electronic shielding due to its high electrical conductivity, oxidation resistance, and durability. Its fine structure ensures efficient charge transfer and long-lasting performance in energy storage applications.
Key Features
| Feature | Description |
|---|---|
| Ultra-High Purity (99.9+%) | Ensures superior electrical and thermal conductivity. |
| Ultra-Thin Design (0.03 mm) | Precision manufacturing for high-tech applications. |
| Corrosion & Oxidation Resistant | Provides long-term durability in extreme environments. |
| Excellent Mechanical Strength | Maintains structural integrity even in flexible applications. |
| High Conductivity | Ideal for battery electrode substrates, shielding, and electrical contacts. |
| Smooth Surface & Uniform Thickness | Supports high-performance industrial and electronic uses. |
Applications
| Application | Description |
|---|---|
| Lithium-Ion & Solid-State Battery Manufacturing | Used as electrodes and current collectors. |
| Fuel Cells & Supercapacitors | Provides high conductivity and stability in energy devices. |
| Electronics Shielding & EMI Protection | Ensures effective electromagnetic interference shielding. |
| Electrode Substrate & Conductive Layers | Supports uniform charge distribution in batteries and devices. |
| Industrial & Laboratory Research | Applied in experimental studies and high-precision industrial uses. |
This 99.9+% high-purity nickel foil is engineered for advanced energy storage systems, cutting-edge electronic applications, and high-precision industrial uses, ensuring optimal performance, conductivity, and durability.
