Dysprosium Oxide Nanopowder (Dy2O3, 99.9+%, 30nm)

Dysprosium Oxide Nanopowder (Dy₂O₃, 99.9+%, 30nm) is a high-purity nanopowder with a particle size of approximately 30 nanometers (nm). Known for its unique magnetic, optical, and electronic properties, dysprosium oxide is a valuable material in advanced technologies, including permanent magnets, nuclear reactors, and high-performance electronic devices.

Key Features:

• Dysprosium Oxide (Dy₂O₃): A rare-earth oxide known for its excellent magnetic properties, high thermal stability, and high refractive index. It plays a crucial role in the development of high-performance magnets and other electronic applications.
• Purity (99.9+%): The high purity ensures minimal contamination, making it ideal for precision applications in research and advanced manufacturing processes.
• Particle Size (30nm): The nanoscale particle size increases surface area, enhances material reactivity, and optimizes performance in various applications, including catalysis and energy storage.

Properties:

• Magnetic Properties: Dysprosium oxide is essential for the development of high-strength permanent magnets, particularly in applications where high magnetic fields are required, such as electric motors and generators.
• Thermal Stability: Dysprosium oxide remains stable at high temperatures, making it useful in high-temperature applications, including in nuclear reactors and advanced coatings.
• Optical Properties: The material’s high refractive index and unique optical characteristics make it ideal for optical applications, such as lenses and laser technologies.
• Chemical Stability: Dysprosium oxide is highly resistant to chemical reactions and oxidation, which increases its longevity and reliability in harsh environments.
• Catalytic Activity: The nanopowder’s high surface area enhances its effectiveness as a catalyst in various chemical reactions, including oxidation and hydrogenation processes.

Applications:

• Permanent Magnets: Dysprosium oxide is a key material in the production of high-performance permanent magnets, especially those used in electric vehicles, wind turbines, and other energy-efficient technologies.
• Nuclear Reactors: The material’s high neutron absorption cross-section makes it valuable for use in nuclear reactors, where it helps in radiation shielding and controlling neutron flux.
• Electronics and Optoelectronics: Dysprosium oxide is used in advanced electronic devices, including semiconductors, lasers, and photodetectors, where its magnetic and optical properties are critical.
• Catalysis: The material’s high surface area and stability make it effective in catalytic applications, including the production of hydrogen and other energy-efficient processes.
• Coatings and High-Temperature Applications: Dysprosium oxide is used in coatings for high-temperature environments, such as in aerospace components, where its thermal stability and chemical resistance are beneficial.

Handling and Safety:

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

Summary:

Dysprosium Oxide Nanopowder (Dy₂O₃, 99.9+%, 30nm) offers high purity, outstanding magnetic properties, and excellent thermal stability, making it a critical material in industries such as electronics, energy, and catalysis. Its nanoscale size enhances its reactivity and performance, while proper handling and storage are essential to maintaining its quality and effectiveness.