Titanium oxide Nanoparticles/ Nanopowder (TiO2, Rutile, 50-80nm, purity 99.5%)
₹1475.00
Titanium Dioxide Nanopowder (TiO₂, Rutile, 50–80 nm, Purity 99.5%)
Technical Specifications
Property | Specification |
|---|---|
Chemical Name | Titanium Dioxide (TiO₂, Rutile) |
CAS Number | 13463-67-7 |
Molecular Weight | 79.87 g/mol |
Purity | ≥ 99.5% |
Appearance / Color | White Fine Powder |
Particle Size (Average) | 50–80 nm |
Morphology | Spherical / Agglomerated Nanoparticles |
Crystal Structure | Rutile |
Specific Surface Area (BET) | 60–100 m²/g |
Density | 4.2 g/cm³ |
Melting Point | 1843 °C |
Boiling Point | Sublimes above 2972 °C |
Solubility | Insoluble in water; soluble in strong acids |
pH (in aqueous suspension) | ~6–8 |
Stability | Chemically stable; non-hygroscopic under normal conditions |
Key Features
High Purity (≥ 99.5%) ensures consistent chemical and physical performance.
Nanoscale Particle Size (50–80 nm): Provides moderate surface area suitable for pigments, coatings, and polymer applications.
Rutile Crystal Structure: Offers excellent thermal stability, opacity, and durability.
Spherical Morphology: Promotes uniform dispersion in polymers, coatings, and liquids.
White Fine Powder: Easy to handle, mix, and incorporate into formulations.
Thermally Stable: Suitable for high-temperature industrial processes.
Enhanced Pigment Properties: Ideal for applications requiring brightness, opacity, and UV stability.
Applications
1. Pigments & Coatings:
Provides opacity, brightness, and UV protection in paints, coatings, plastics, and inks.
2. Ceramics & Glass:
Used in ceramic glazes, glass coatings, and specialty refractories.
3. Nanocomposites & Polymers:
Improves mechanical strength, UV stability, and thermal resistance in polymer matrices.
4. Electronics & Sensors:
Applied in electronic ceramics, dielectric coatings, and sensor materials.
5. Research & Advanced Materials:
Suitable for nanotechnology studies, thin films, and multifunctional coating applications.
6. Solar & Photonics Applications:
Utilized where high refractive index and thermal stability are required, though with lower photocatalytic activity than Anatase.