Dysprosium Oxide, identified by its CAS number 1308-87-8, is a fascinating inorganic compound belonging to the rare earth metal family. As a high-purity chemical, it plays a significant role in various advanced technological and industrial applications. Understanding its properties and potential uses is crucial for procurement managers and R&D scientists looking for specialty materials. In this article, we delve into what makes Dysprosium Oxide a valuable commodity, from its physical characteristics to its diverse applications, and importantly, how to secure a reliable supply from a trusted manufacturer.

Key Properties of Dysprosium Oxide
Dysprosium Oxide (Dy2O3) typically presents as a white or slightly yellowish-white powder. It boasts a high melting point, generally ranging between 2330-2350 °C, and a density of approximately 7.81 g/mL at 25°C. This robust thermal stability and density make it suitable for applications subjected to high temperatures. While it is moderately soluble in acids, it remains insoluble in water, which is a common characteristic for many metal oxides. Its hygroscopic nature means it can absorb moisture from the air, necessitating proper storage conditions.

Applications Driving Demand
The unique optical and chemical properties of Dysprosium Oxide drive its demand across several key sectors:

  • Glass and Ceramics: Dysprosium Oxide is widely recognized for its function as a colorant. It imparts a distinctive pinkish hue to glasses, cubic zirconia, and porcelain enamel glazes. This makes it a preferred choice for manufacturers of decorative glass, sunglasses, and high-end ceramics where specific color profiles are desired.
  • Optical Fiber Technology: One of the most critical applications for high-purity Dysprosium Oxide is its use as a dopant in the manufacturing of optical fibers and fiber optic amplifiers. These doped fibers are essential for telecommunications, enabling efficient signal amplification over long distances.
  • Catalysis: Research has highlighted the catalytic properties of Dysprosium Oxide. It has been studied for its effectiveness in chemical processes such as the dehydrogenation and dehydration of alcohols, as well as the dehydrogenation of tetralin. These catalytic applications are vital in organic synthesis and the petrochemical industry.
  • Other Specialty Uses: Dysprosium Oxide also finds its way into phosphors, lasers, and specialized lighting, such as dysprosium metal halide lamps, further underscoring its versatility in material science.

Sourcing Dysprosium Oxide from China
For businesses seeking to procure Dysprosium Oxide, understanding the sourcing landscape is important. China is a major global supplier of rare earth elements, including Dysprosium Oxide. When looking to buy this material, it is imperative to partner with a reputable manufacturer and supplier that can guarantee high purity, consistent quality, and reliable delivery. Companies specializing in fine chemicals and inorganic materials often offer competitive pricing, particularly for bulk purchases and for those looking to establish long-term supply agreements. Obtaining a quote from a trusted China-based supplier like NINGBO INNO PHARMCHEM CO.,LTD. can be a strategic first step in securing your material requirements.

In conclusion, Dysprosium Oxide (CAS 1308-87-8) is a critical material with a broad range of applications. Its unique properties make it indispensable in industries from telecommunications to advanced ceramics. By understanding its characteristics and knowing where to source it, businesses can effectively leverage this rare earth compound for their product development and manufacturing needs. We encourage you to request a quote or sample to experience the quality and service from a leading Dysprosium Oxide manufacturer.