By Chisom Ibemere
Xenotime is a rare earth phosphate mineral that is majorly composed of yttrium and various other rare earth elements.
Xenotime was first described in 1824 and its name is derived from the Greek words “xenos” meaning “strange” and “time” meaning “honor” or “place.” It was named so because of its unusual composition and occurrence in uncommon geological settings.
Xenotime occurs in various geological environments, including granite pegmatites, greisens (hydrothermal ore deposits), and carbonate-rich rocks. It can also be found associated with heavy mineral sand deposits. Notable occurrences include Brazil, Malaysia, Australia, China, and some parts of the United States.
Xenotime has wide applications basically because of its high concentration of rare earth elements. It is used in the production of ceramics, glass, phosphors, catalysts, and various high-tech devices.
It can also be processed to extract valuable elements such as yttrium, gadolinium, and terbium, which have applications in electronics, magnets, lasers, and energy-efficient lighting.
Xenotime has yttrium as the dominant rare earth element within its structure. It has a tetragonal crystal system and often occurs as prismatic or tabular crystals. It may have yellow to brown, and it may exhibit pleochroism, showing different colors when viewed from different angles. It has a high refractive index and exhibits birefringence. It has a Mohs hardness of around 4.5 to 5, making it relatively hard. It is usually transparent to translucent.
Xenotime value is primarily driven by its rare earth element content. Rare earth elements are essential for numerous high-tech industries, including electronics, automotive, renewable energy, and defense. As the demand for these elements increases, the value of minerals like xenotime, which contain them, also rises.
It’s important to note that the specific value of xenotime can fluctuate based on market conditions, supply and demand dynamics, and the overall availability of rare earth elements.