new material
Nanometer zirconium oxide for fuel cell electrolyte provides optimized ion conductivity, superior thermal stability, and enhanced electrochemical performance. Designed for advanced applications, it ensures efficient charge transfer, extended durability, and high-performance adaptability.
Product Overview
Nanometer zirconium oxide for fuel cell electrolyte is a high-performance nanomaterial specifically designed for the preparation of fuel cell electrolytes. With excellent sintering density and high-temperature resistance, it provides superior electrical conductivity and thermal stability, thus enhancing the efficiency and stability of fuel cells.
Key Features
- High Sintering Density:Improves the structural stability of the electrolyte.
- High-Temperature Resistance:Operates stably under high-temperature conditions.
- Low Impurity Content:Controls impurities like Si, Fe, Na, Al to below 50ppm, ensuring purity and optimal performance.
Applications
- Fuel Cells:Widely used in the production of commercial fuel cell power generation units, providing high-efficiency and stable electrolyte materials.
- High-Temperature Applications:Suitable for fuel cell systems requiring high-temperature resistance and stability.
| Model | RS2 |
| Average Particle Size D50 | 0.2-0.5µm |
| Sintering Density | ≥5.7 g/cm³ |
| Sintering Temperature | 1370℃ |
| BET Specific Surface Area | 9-12 m²/g |
| Other Impurities (such as Si, Fe, Na, Al) | Controlled below 50ppm |
