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What is Thulium Oxide (Tm2O3) Micron Powder?
Thulium Oxide (Tm2O3) Micron Powder is a rare earth metal oxide known for its high-temperature stability, optical properties, and applications in lasers, electronics, and nuclear reactors. It is widely used in specialized industrial, medical, and scientific applications.
Chemical Properties and CAS Number
- Material: Thulium Oxide (Tm2O3)
- CAS Number: 12036-44-1
- Appearance: White or pale green powder
- Density: ~8.6 g/cm³
- Melting Point: ~2341°C
- Particle Size: Varies from micron to nano-scale depending on application
- Solubility: Insoluble in water, soluble in acids
- Thermal Stability: High-temperature resistant
Applications of Thulium Oxide (Tm2O3) Micron Powder
1. Laser and Optical Applications
Used in solid-state lasers and infrared optical devices due to its unique luminescent and infrared absorption properties.
2. Electronics and Semiconductor Industry
Applied in advanced semiconductor materials, thin-film coatings, and high-performance electronics.
3. Medical Imaging and X-Ray Devices
Utilized in medical imaging, X-ray phosphors, and radiation detection technologies.
4. Nuclear Reactor Materials
Incorporated into nuclear reactors as a neutron absorber due to its high neutron capture cross-section.
5. Advanced Ceramics and Catalysts
Employed in high-performance ceramics, catalysts, and glass manufacturing.
Pricing of Thulium Oxide (Tm2O3) Micron Powder
Pricing varies based on purity, particle size, and industrial application:
- Standard Grade: Typically ranges from $3000 – $8000 per kilogram
- High-Purity Grade: Prices range from $8000 – $15000 per kilogram, optimized for advanced optical and medical applications.
Factors Influencing Pricing
- Purity and particle size distribution
- Bulk purchasing volume
- Industry demand from laser, medical, and nuclear sectors
- Advanced production methods and refinement processes
Conclusion
Thulium Oxide (Tm2O3) Micron Powder is a highly specialized material used in laser technology, semiconductor manufacturing, medical imaging, and nuclear applications. Its rare earth properties make it a valuable component in advanced scientific and industrial fields.