Technical Specifications
- Product Name: Cerium Oxide Nanopowder
- Chemical Formula: CeO₂ (Cerium Dioxide)
- CAS Number: 1306-38-3
- Purity
- Grade: 99.9+% (high purity)
- Impurities: ≤0.1% (trace levels of other oxides or non-metallic elements)
- Particle Size
- Range: 10–30 nm
- Particle Size Distribution: Uniformly distributed, verified via SEM (Scanning Electron Microscopy) or TEM (Transmission Electron Microscopy)
- Morphology
- Shape: Near-spherical particles with uniform surface features
- Surface Area: High due to nanoscale size, enhancing reactivity
- Crystal Structure
- Phase: Fluorite cubic structure, providing high thermal and mechanical stability
- Physical and Chemical Properties
- Color: Pale yellow or white powder
- Density: ~7.22 g/cm³
- Melting Point: ~2,400 °C
- Thermal Stability: Retains structural integrity at elevated temperatures
- Optical Properties: Bandgap energy of ~2.8 eV, suitable for UV absorption and photocatalysis
- Packaging and Storage
- Standard Packaging: Sealed in airtight, moisture-resistant containers to prevent contamination and agglomeration
- Storage Conditions: Store in a cool, dry environment; avoid prolonged exposure to air and moisture
- Shelf Life: Stable under proper storage conditions
- Safety and Handling
- Hazards:
- Fine cerium oxide powder may cause respiratory or eye irritation if inhaled or exposed.
- Non-flammable but requires careful handling to prevent particle dispersion.
- Recommended Protective Measures:
- Use PPE (e.g., gloves, goggles, and dust masks).
- Ensure proper ventilation during handling to avoid airborne particles.
- Hazards:
Applications
- Catalysis
- Environmental Catalysis: Utilized in catalytic converters to reduce emissions of NOx, CO, and hydrocarbons from vehicle exhausts.
- Chemical Catalysis: Acts as an oxygen buffer in redox reactions, widely used in petrochemical and industrial processes.
- Polishing Applications
- Glass and Silicon Polishing: Cerium oxide is extensively used for precision polishing in optical lenses, silicon wafers, and mirrors due to its mild abrasive and chemical reactivity.
- High-Performance Polishing: Ideal for removing fine scratches and achieving high surface quality.
- Energy Applications
- Solid Oxide Fuel Cells (SOFCs): Acts as an electrolyte or cathode material due to its ionic conductivity and thermal stability.
- Hydrogen Storage: Investigated for its potential role in hydrogen production and storage systems.
- Environmental Applications
- Pollutant Degradation: Effective in removing organic pollutants and heavy metals from air and water systems through photocatalysis.
- Air Purification: Applied in filtration systems for capturing and degrading harmful gases and particulates.
- Biomedical Applications
- Antioxidant Properties: Exhibits free-radical scavenging ability, making it a promising agent for nanomedicine and therapeutic applications.
- Drug Delivery Systems: Explored as a carrier for controlled drug release and targeted therapies.
- Coatings and Surface Treatments
- Protective Coatings: Enhances wear and corrosion resistance in industrial tools and machinery.
- UV Protection: Used in sunscreen formulations and coatings for its UV-blocking properties.
- Optoelectronics
- Photonic Devices: Suitable for use in optoelectronic components such as photodetectors and sensors.
- Gas Sensors: Effective in detecting gases like oxygen, nitrogen oxides, and carbon monoxide.
- Nanocomposites
- Reinforcement Material: Enhances thermal, mechanical, and optical properties of polymer, ceramic, and metal composites.
- Aerospace and Automotive Applications: Used in lightweight components with high-performance requirements.
- Research and Development
- Material Science: Extensively studied for its unique redox, optical, and catalytic properties.
- Prototype Development: Applied in testing advanced technologies for energy storage, catalysis, and environmental applications.
Key Features
- High purity (99.9+%) and nanoscale size (10–30 nm) ensure excellent catalytic, optical, and mechanical properties.
- Superior reactivity and stability make it ideal for use in energy systems, catalysis, and environmental remediation.
- Versatile material for diverse applications, including biomedical, coatings, and polishing.
