Rare earth oxides such as yttrium oxide, lanthanum oxide, gadolinium oxide, cerium oxide and others are available in the highest purity for laser and nuclear technology or waste water treatment and luminescent substances.
AEM REE specializes in producing high purity rare earth materials with high quality for use in semiconductor, chemical vapor deposition (CVD) and physical vapor deposition (PVD) display and optical applications. The unique synergy between our engineering, manufacturing and analytical teams has allowe
AEM Deposition specializes in producing high purity evaporation materials with high quality for use in semiconductor, chemical vapor deposition (CVD) and physical vapor deposition (PVD) display and optical applications. The unique synergy between our engineering, manufacturing and analytical teams ha
Erbium Oxide (Er2O3) AEM Deposition specializes in producing high purity evaporation materials with high quality for use in semiconductor, chemical vapor deposition (CVD) and physical vapor deposition (PVD) display and optical applications. The unique synergy between our engineering, manufacturing an
Europium Oxide (Eu2O3) is a white powder that is highly insoluble in water and thermally stable. It is formed by igniting europium metal. Due to the nature of oxide compounds, Europium Oxide is not conductive to electricity. However, it is widely used for phosphor and fluorescent applications. Europ
Gadolinium oxide is a white powder. It is insoluble in water, but soluble in acid. It easilly absorbs moisture and carbon dioxide from the air.AEM Deposition specializes in producing high purity evaporation materials with high quality for use in semiconductor, chemical vapor deposition (CVD) and phys
Holmium (III) oxide, also known as Holmia, is a light yellow powder that is one of the most paramagnetic substances known. Holmium Oxide, has specialized uses in ceramics, glass, phosphors and metal halide lamp, and dopant to garnet laser. Holmium can absorb fission-bred neutrons, it is also used in
Lanthanum (III) oxide (La2O3) is used to make special optical glasses to improve the alkali resistance. Lanthanum oxide is a white, odorless solid that is soluble in dilute acid but insoluble in water. It is a rare earth oxide compound, which is a basic anhydride and can therefore react with acids an
Lutetium Oxide (Lu2O3), also called lutecia, is a cubic compound of lutetium. It is a lanthanide oxide, also known as a rare earth. Lutetium Oxide is white in color and insoluble in water. Due to the nature of oxide compounds, Lutetium Oxide is not conductive to electricity. However, it produces lute
Neodymium (III) oxide, also named Neodymium sesquioxide, is an oxide of a rare earth element. It presents light grayish-blue hexagonal crystals in appearance. Neodymium oxide is soluble in acid and insoluble in water. It is a highly insoluble and thermally stable neodymium. While oxide compounds are
Praseodymium oxide, also known as praseodymia, is a dark brown powder which is insoluble in water and only soluble in strong acid. Praseodymium oxide is stable under normal temperatures and pressures. It is a rare earth oxide compound, which is a basic anhydride and can therefore react with acids and
Samarium Oxide is light yellowish powder. It is insoluble in water. Samarium Oxide, also called Samaria, Samarium has a high neutron absorption capacity, Samarium Oxides have specialized uses in glass, phosphors, lasers, and thermoelectric devices. Calcium Chloride crystals treated with Samarium have
Scandium(III) oxide, Sc2O3, or Scandia, is a high melting rare earth oxide. It is used in the preparation of other scandium compounds as well as in high-temperature systems (for its resistance to heat and thermal shock), electronic ceramics, and glass composition (as a helper material). Physical Pro
Terbium (III, IV) oxide (also known as tetraterbium heptaoxide) is relatively stable and easier to be stored. It is used as a redox catalyst in reactions involving oxygen. At high temperatures, it can liberate oxygen. It finds applications in the manufacture of glass, optic and ceramic. Nanoparticles
Thulium Oxide, also called Thulia, is the important dopant for silica-based fibre amplifiers, and also have specialized uses in ceramics, glass, phosphors, lasers. Because the wavelength of Thulium-based lasers is very efficient for superficial ablation of tissue, with minimal coagulation depth in ai
Ytterbium Oxide is a white powder which is not hazardous. It is mainly used to make colorant for glasses and ceramics , used to make laser materials , also used as additive for electronic computer memory element (magnetic bubble ). Moreover, Ytterbium Oxide is widely used in optical fibers. Ytterbiu
Yttrium Oxide, also called Yttrium (III) oxide and Yttria, is a white solid substance which is stable in air. High purity Yttrium Oxides are the most important materials for tri-bands Rare Earth phosphors which give the red colour in colour television computer tubes. In optical industry, the Yttrium