Samarium (III) chloride is a rare earth metal that has numerous applications. It is often used in magnets and lasers. Moreover, it is used as an alloy in a variety of magnetic devices. Specifically, samarium is used in the nuclear industry as a neutron capture maser. In addition, it is used in glass as an infrared absorbing material and as a catalyst in cracking crude petroleum.
Samarium has low to moderate toxicity and a wide range of uses. The metal is produced by electrolysis of a molten salt solution. For example, samarium is used in a variety of magnets, including neodymium-iron-boron magnets. Also, it is used as a rare-earth alloy with cobalt.
Samarium (III) chloride is also used as a catalyst for cracking crude petroleum. This product is also an irritant, so it is a good idea to wear protective eyewear when using it. Similarly, samarium(III) chloride is also used as an alloy in magnets. Despite its widespread use, there are still many areas of research that have not yet been fully explored. These include samarium compounds, which have not been extensively studied.
One of the most important applications of samarium is the production of samarium metal. However, there are other uses for samarium, such as the production of samarium ions. By doing this, samarium is able to form inorganic and organic compounds. Several approaches have been proposed to accomplish this. Until recently, one method involved using a polymeric phase-transfer catalyst in water. However, a newer approach does not require this.