Yttrium nitrate hexahydrate is white crystalline granular, which is a rare earth salt. It is stable at room temperature and pressure. Yttrium(III) nitrate hexahydrate lose three water molecular at 100℃. It tend todeliquesce and dissolve in water, which also dissolve in ethyl alcohol and acetate. Yttrium trioxide is the raw material.
Y(NO3)3 is a versatile rare earth compound widely valued for its solubility, reactivity, and adaptability in various applications. Its role as a precursor in the production of advanced materials makes it an essential component in industries ranging from electronics to energy and materials science.
Yttrium Nitrate Hexahydrate
CAS No.:13494-98-9 | EINECS No.:233-802-6 | Molecular Formula:Y(NO3)3.6H2O | Molecular Weight:383.01 |
Melting Point:100℃ | Density:2.68 | UN 1477 5.1/PG 2 |
Applications
Yttrium(III) nitrate is a scientific reasearch reagent. It get wide applications in various fluorescent powder, high quality refractory matter, artificial stone laser crystal, superconducting materials, electronic industry and many cutting edge applications.
Y(NO3)3 is a key precursor for the synthesis of yttrium-based oxides such as yttrium oxide (Y2O3). These materials are used in high-performance ceramics that exhibit excellent thermal stability, mechanical strength, and resistance to corrosion. Applications include thermal barrier coatings, advanced refractories, and components for aerospace and energy sectors.
Y(NO3)3 plays a vital role in producing phosphor materials used in LED lighting, display technologies, and laser systems. Its luminescent properties are essential for high-brightness and energy-efficient lighting solutions, as well as advanced imaging devices.
In chemical processes, Y(NO3)3 is utilized as a catalyst or catalyst precursor. It contributes to improved reaction efficiency in applications such as organic synthesis, polymerization, and petrochemical processing.
Y(NO3)3 is instrumental in developing materials for energy storage systems, including advanced batteries and supercapacitors. Its use in these applications supports the growth of sustainable energy solutions and efficient power management technologies.
Yttrium nitrate is widely used in research and development, particularly in the synthesis of nanomaterials and innovative compounds. Its adaptability enables scientists to explore new applications in fields such as biotechnology, environmental science, and electronics.