Neodymium Fluoride Pellets
Neodymium Fluoride Pellets
Neodymium Fluoride Pellets | |
Product No | NRE-52087 |
CAS No. | 13709-42-7 |
Formula | NdF3 |
Molecular Weight | 201.24 g/mol |
Purity | 99.9% |
Density | 6500 kg/m3 |
Melting Point | 1410 °C |
Boiling Point | 2300 °C |
Shape | Pellet |
Electrical Resistivity | NA |
Electronegativity | NA |
Neodymium Fluoride Pellets
Neodymium fluoride (NdF₃) pellets are utilized in various specialized applications, particularly due to neodymium’s unique properties and its role in advanced technologies. Here’s a detailed overview of the primary applications for neodymium fluoride pellets:
Optical Applications
Lasers: Neodymium fluoride is used in the production of neodymium-doped laser materials. NdF₃ is a key component in creating laser crystals, such as neodymium-doped yttrium aluminum garnet ) lasers, which are widely used in various high-precision applications including medicalprocedures, materials processing, and scientific research.
Optical Coatings: Neodymium fluoride pellets can be used to produce optical coatings and filters. These coatings are applied to lenses and other optical components to improve their performance in specific wavelength ranges.
Magnetic and Electronic Devices
Permanent Magnets: Neodymium is a critical element in the production of high-performance neodymium-iron-boron (NdFeB) magnets. While NdF₃ itself is not used directly in magnets, it plays a role in the production of neodymium metal, which is then used to create these strong permanent magnets.
Electronic Devices: Neodymium-based materials are used in various electronic devices, including sensors and actuators. Neodymium fluoride can be a precursor in the synthesis of other neodymium compounds used in these devices.
Catalysis and Chemical Reactions
Catalysts: Neodymium fluoride can be used in certain catalytic processes. Its properties make it suitable as a catalyst or catalyst support in chemical reactions, particularly in processes involving fluorination and other specialized reactions.
Reagent in Synthesis: NdF₃ is employed as a reagent in the synthesis of other neodymium compounds. These compounds are used in various chemical and industrial processes.
Glass and Ceramics
Specialty Glasses: Neodymium fluoride can be used in the production of specialty glasses. Neodymium-doped glasses are used for their unique optical properties, including color and light absorption characteristics.
Ceramics: Neodymium fluoride is used in the manufacture of advanced ceramics that require specific optical or magnetic properties.
Research and Development
Material Science: Neodymium fluoride pellets are used in research to explore the properties and potential applications of neodymium-based materials. Researchers study its use in new technologies and advanced materials.
High-Energy Physics: In some high-energy physics experiments, neodymium fluoride is used as a component in experimental setups or as a standard material for calibration purposes.