Titanium Nanopowder (Ti, 99.9%, 30-50nm)

Titanium Nanopowder (Ti, 99.9%, 30-50 nm)

Titanium Nanopowder (Ti, 99.9%, 30-50 nm) is a high-purity nanomaterial characterized by its exceptional strength, lightweight nature, and resistance to corrosion. With a particle size in the range of 30-50 nanometers (nm), this material offers a high surface-to-volume ratio, making it highly reactive and suitable for various advanced industrial, biomedical, and environmental applications.

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Key Features:

Titanium (Ti):
Titanium is a transition metal known for its strength-to-weight ratio, biocompatibility, and resistance to corrosion. In nanopowder form, these properties are enhanced, enabling unique applications in advanced technology and material science.

Purity (99.9%):
The 99.9% purity ensures minimal impurities, which is critical for maintaining performance and reliability in sensitive applications such as aerospace, medical implants, and energy storage.

Particle Size (30-50 nm):
The nanoscale size increases the material’s reactivity, surface area, and versatility, making it suitable for applications requiring precise material properties and interaction.

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Properties:

High Strength-to-Weight Ratio:
Titanium nanopowder retains the metal’s inherent lightweight and strength characteristics, making it ideal for use in aerospace and lightweight structural components.

Corrosion Resistance:
Titanium is inherently resistant to corrosion in many environments, including exposure to seawater and certain chemicals, making it valuable for marine and chemical applications.

Thermal and Electrical Conductivity:
While not as conductive as copper or silver, titanium exhibits reasonable thermal and electrical conductivity, which is further enhanced in nanopowder form for specific applications.

High Surface Area:
The nanometer-sized particles provide an increased surface area, which is critical in catalytic, coating, and composite applications where material interaction is key.

Biocompatibility:
Titanium’s compatibility with biological systems, combined with its nanoscale size, makes it highly suitable for biomedical applications, such as drug delivery systems and implant coatings.

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Applications:

1. Aerospace and Defense:
   Titanium nanopowder is used in the development of lightweight, high-strength materials for aerospace and defense applications, including structural components, coatings, and advanced composites.
2. Biomedical Devices:
   Titanium’s biocompatibility and resistance to corrosion make it suitable for medical implants, prosthetics, and dental devices. The nanopowder form enhances its use in developing coatings for improved integration with biological tissues.
3. Energy Storage:
   Titanium nanopowder is utilized in the production of advanced energy storage systems, including batteries and hydrogen storage materials, due to its reactivity and stability.
4. Catalysis:
   The high surface area of titanium nanopowder makes it a valuable catalyst or support material in chemical reactions, including photocatalysis and the production of hydrogen through water splitting.
5. Additive Manufacturing:
   Titanium nanopowder is a key material in 3D printing and powder metallurgy, where its nanoscale properties enable the fabrication of high-performance components with complex geometries.
6. Coatings and Thin Films:
   The nanopowder form is used to create wear-resistant, corrosion-resistant, and thermally stable coatings for industrial and consumer applications.
7. Environmental Applications:
   Titanium nanopowder is employed in water purification and air filtration systems, where its photocatalytic properties enable the breakdown of organic pollutants and harmful substances.
8. Electronics:
   Titanium nanopowder is used in the production of electronic components, including capacitors and conductive coatings, due to its stability and reactivity.

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Handling and Safety:

Health and Safety Considerations:
Titanium nanopowder should be handled with care to avoid inhalation, ingestion, or skin contact. Use appropriate personal protective equipment (PPE), such as gloves, goggles, and masks, and ensure adequate ventilation during handling.

Storage:
Store in a cool, dry, and well-ventilated environment. Protect the material from exposure to moisture and air to prevent oxidation and degradation. Keep the container tightly sealed when not in use.

Precautions:
Minimize dust generation during handling to reduce the risk of inhalation. Follow local environmental and safety regulations for disposal of titanium nanopowder.

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Summary:

Titanium Nanopowder (Ti, 99.9%, 30-50 nm) combines high purity, nanoscale size, and exceptional material properties, making it indispensable in advanced technological applications. From aerospace and medical devices to catalysis and energy storage, its unique combination of strength, biocompatibility, and reactivity provides significant performance benefits. Proper handling and storage are essential to maintain its quality and ensure safe usage in cutting-edge applications.