Dysprosium Fluoride Sputtering Targets
Dysprosium Fluoride Sputtering Targets
Dysprosium Fluoride Sputtering Targets | |
Product No | NRE-43408 |
CAS No. | 13569-80-7 |
Formula | DyF3 |
Molecular Weight | 219.5 |
Purity | >99.9% |
Density | 5.948 g/cm3 |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Resistivity | NA |
Thermal Conductivity | NA |
Dysprosium Fluoride Sputtering Targets
Dysprosium oxide (Dy₂O₃) sputtering targets are used to deposit thin films with unique properties, thanks to the characteristics of dysprosium oxide.
Magnetic Materials:
Use: Dysprosium oxide is used in the deposition of thin films that require enhanced magnetic properties. Dysprosium’s high magnetic moment can improve the magnetic performance of devices.
Benefit: Dy₂O₃ films can be crucial for high-density magnetic storage media, magnetic sensors, and other magnetic devices, where enhanced magnetic properties are beneficial.
Optical Coatings:
Use: Dysprosium oxide is employed in the production of optical coatings. Its optical properties make it useful for applications requiring specific light absorption or emission characteristics.
Benefit: Dy₂O₃ coatings can improve optical performance in devices like lenses, mirrors, and filters, offering tailored optical characteristics such as improved refractive index or light transmission.
Thin Film Transistors and Electronics:
Use: Dy₂O₃ is used in the fabrication of thin film transistors and other electronic devices. Its electrical properties can contribute to the performance of semiconductors and insulators.
Benefit: Enhances the performance and stability of electronic components, providing high-quality dielectric layers or insulators.
High-Temperature Superconductors:
Use: Dysprosium oxide can be used in the fabrication of high-temperature superconductors. It may be employed as a dopant or as part of the material matrix in these superconductors.
Benefit: Improves the superconducting properties by enhancing flux pinning or modifying the material structure.
Phosphors and Luminescent Materials:
Use: Dy₂O₃ is used in the production of phosphors and luminescent materials. Dysprosium oxide can be doped into phosphor materials to create specific colors or enhance brightness.
Benefit: Used in various display technologies and lighting applications, including LED lighting and cathode ray tubes (CRT).
Catalysts and Chemical Reactions:
Use: Dysprosium oxide can serve as a catalyst or a catalyst support in various chemical reactions. Its properties can enhance catalytic activity or stability.
Benefit: Improves the efficiency of catalytic processes in industrial applications.
Research and Development:
Use: Researchers use Dy₂O₃ sputtering targets to explore new materials and their properties. The unique characteristics of dysprosium oxide make it valuable for developing advanced materials and understanding their behavior.
Benefit: Enables the development of novel technologies and contributes to scientific advancements in materials science.