Erbium Oxide Nanopowder (Er2O3, 99.9%, 10-100nm)

Erbium Oxide Nanopowder (Er₂O₃, 99.9%, 10-100nm) is a high-purity material with a particle size ranging from 10 to 100 nanometers (nm). Erbium oxide, a rare-earth compound, is highly valued for its optical, magnetic, and electronic properties. It is commonly used in the production of advanced materials for lasers, optical amplifiers, and high-performance electronic devices.

Key Features:

• Erbium Oxide (Er₂O₃): A rare-earth oxide with exceptional optical and magnetic properties. Erbium oxide is widely used in the development of lasers, optical fibers, and in applications that require efficient energy conversion and light manipulation.
• Purity (99.9%): The high purity ensures minimal impurities, which is essential for high-performance applications where material consistency and quality are critical.
• Particle Size (10-100nm): The wide range of nanoparticle sizes allows for enhanced reactivity and improved performance in various applications, offering a balance between surface area and handling ease.

Properties:

• Optical Properties: Erbium oxide is widely used in laser systems, optical fibers, and amplifiers due to its ability to efficiently absorb and emit light at specific wavelengths, especially in the infrared region.
• Magnetic Properties: Erbium oxide exhibits unique magnetic properties that make it useful in high-performance magnets, electronic components, and magnetic materials.
• High Thermal Stability: Erbium oxide remains stable at high temperatures, making it useful in high-temperature applications, including in advanced ceramics and coatings.
• Chemical Stability: Erbium oxide is highly resistant to oxidation and corrosion, enhancing its durability in harsh environments.
• Surface Area and Reactivity: The nanopowder’s small particle size increases surface area, improving reactivity and efficiency in applications such as catalysis and energy storage.

Applications:

• Optical Amplifiers and Lasers: Erbium oxide is used as a dopant in optical fibers and solid-state lasers, where it enhances performance in telecommunications and laser systems.
• Electronics and Semiconductors: The material is employed in advanced electronic devices, including in the manufacture of semiconductors, capacitors, and transistors, benefiting from its unique electronic properties.
• Catalysis: The high surface area of erbium oxide nanopowder makes it an effective catalyst or catalyst support in chemical reactions, including hydrogenation and oxidation processes.
• High-Temperature Ceramics and Coatings: Erbium oxide is used in advanced ceramics and protective coatings that require high thermal stability and resistance to chemical degradation.
• Magnetic Materials: Its magnetic properties make it suitable for use in permanent magnets and other magnetic components in electronics and motors.

Handling and Safety:

• Health and Safety Considerations: Erbium oxide nanoparticles should be handled with care to avoid inhalation, ingestion, or skin contact. Use appropriate personal protective equipment (PPE), including gloves, masks, and safety goggles.
• Storage: Store the material in a cool, dry, and well-ventilated environment. Ensure that the containers are tightly sealed to protect the powder from moisture and air.
• Precautions: Minimize dust generation during handling, and work in a controlled environment to avoid inhalation. Dispose of the material according to local environmental regulations.

Summary:

Erbium Oxide Nanopowder (Er₂O₃, 99.9%, 10-100nm) combines high purity with exceptional optical and magnetic properties, making it ideal for advanced applications in lasers, optical systems, catalysis, and electronics. Its nanoscale size enhances reactivity and performance, while its stability ensures reliability in high-temperature and harsh environments. Proper handling and storage are crucial to maintaining its quality and optimizing its performance in various technological fields.