Cuprous Oxide Nanopowder (Cu₂O, High Purity, 99+%, 18nm) is a high-purity nanopowder with a particle size of approximately 18 nanometers (nm). Known for its unique properties, including semiconductor behavior and catalytic activity, this material is ideal for various applications in photovoltaics, catalysis, electronics, and environmental technologies.
Key Features:
- Cuprous Oxide (Cu₂O): A copper oxide with unique electrical, optical, and catalytic properties. It is a p-type semiconductor, making it useful in various electronic and energy conversion applications.
- Purity (99+%): The high purity ensures minimal contamination, making the material reliable for advanced industrial applications where precision is critical.
- Particle Size (18nm): The nanoscale particle size enhances the material’s reactivity, surface area, and performance, allowing for more efficient utilization in applications such as catalysis and energy storage.
Properties:
- Semiconductor Properties: Cu₂O exhibits p-type semiconducting behavior, which is essential for electronic devices, including solar cells, sensors, and light-emitting diodes (LEDs).
- Catalytic Activity: Cuprous oxide is an effective catalyst for various reactions, including oxidation and reduction processes, making it valuable in environmental and chemical industries.
- Optical Properties: The material has specific optical characteristics that make it suitable for use in photocatalysis and energy conversion systems.
- High Surface Area: The nanoscale size increases the surface area, improving the material’s reactivity and enhancing its effectiveness in catalytic applications and energy storage.
- Thermal Stability: Cu₂O remains stable under moderate thermal conditions, making it suitable for a wide range of industrial processes.
Applications:
- Photovoltaics: Cu₂O is used in solar cells as a semiconductor material due to its efficient light absorption and charge transport properties.
- Catalysis: It serves as a catalyst in various chemical processes, including oxidation reactions and pollutant degradation.
- Energy Storage: The material is used in batteries, supercapacitors, and other energy storage devices to improve their efficiency and energy capacity.
- Environmental Remediation: Cuprous oxide is applied in environmental technologies, such as water purification and waste treatment, due to its ability to degrade pollutants.
- Electronics and Optoelectronics: Cu₂O is used in the manufacture of sensors, LEDs, and photodetectors, where its semiconducting and optical properties are advantageous.
Handling and Safety:
- Health and Safety Considerations: Avoid inhalation, ingestion, and skin or eye contact with the powder. Use personal protective equipment (PPE) such as gloves, goggles, and masks during handling.
- Storage: Store the material in a cool, dry, and well-ventilated environment to prevent contamination. Keep containers sealed to avoid exposure to moisture and air.
- Precautions: Handle with care to prevent dust generation, and dispose of the material according to local environmental regulations.
Summary:
Cuprous Oxide Nanopowder (Cu₂O, High Purity, 99+%, 18nm) combines high purity, semiconductor properties, and excellent catalytic activity to make it a versatile material for applications in photovoltaics, catalysis, energy storage, and environmental remediation. Its nanoscale particle size enhances its performance in various applications, while proper handling and storage ensure its effectiveness and longevity.
