Samarium Nanopowder
Samarium Nanopowder
| Samarium Nanopowder | |
| Product Number | NRE-1035 |
| CAS No. | 7440-19-9 |
| Formula | Sm |
| Molecular Weight | 150.36 g/mol |
| APS | <100 nm (Can be Customized) |
| Purity | 99.9% |
| Color | Gray Powder |
| Density | 7.52 g/cm3 |
| Melting Point | 1,072 °C |
| Boiling Point | 1,900°C |
Samarium Nanopowder
Samarium nanopowder, which consists of samarium particles on the nanoscale, has several potential applications in various fields due to its unique properties. Some of the notable applications of samarium nanopowder include:
Magnetic Materials:
Samarium cobalt (SmCo) and samarium iron (SmFe) nanoparticles are used in the production of high-performance permanent magnets. These magnets are essential in applications like electric motors, generators, and sensors.
Catalysis:
Samarium nanoparticles can serve as catalysts in various chemical reactions. They have been used in organic synthesis and catalytic hydrogenations.
Biomedical Applications:
Samarium-153, a radioactive isotope of samarium, is used in nuclear medicine for cancer treatment (radiation therapy). Nanoparticles can be functionalized and targeted to specific cancer cells for more precise treatment.
Electronics:
Samarium nanoparticles can be incorporated into electronic components, such as capacitors and sensors, to enhance their performance.
Luminescent Materials:
Samarium-doped nanoparticles can emit various colors of light when exposed to certain stimuli, making them useful in luminescent displays and lighting applications.
Fuel Cells:
Samarium oxide nanoparticles can be used as electrolyte materials in solid oxide fuel cells, where they facilitate the transport of oxygen ions.
Nanomedicine:
Samarium nanoparticles have been explored for drug delivery and imaging applications in nanomedicine due to their size and potential for functionalization.
Environmental Remediation:
Samarium nanoparticles can be employed in the removal of heavy metals and pollutants from water and soil due to their high surface area and reactivity.
Ceramics:
Samarium oxide nanoparticles are used as additives in ceramic materials to enhance their electrical and mechanical properties.
Nuclear Reactors:
Some isotopes of samarium, such as samarium-149, are used in control rods in nuclear reactors to regulate the rate of nuclear fission reactions.
Solar Cells:
Samarium-doped nanoparticles can be used to improve the efficiency of solar cells by enhancing the absorption and conversion of sunlight into electricity.
Fluorescent Labels:
Samarium-doped nanoparticles can be used as fluorescent labels in biological and chemical assays for detection and imaging purposes.
