| Certification: | ISO, MSDS, COA, SGS |
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| Shape: | Powder |
| Purification Method: | Vacuum Melt Process |
| Preparation Method: | Metallothermic Reductio |
| Application: | Catalyst Masses, Energy Materials, Photoelectric Material, Photorecording Material, Medicine |
| Product Type: | Rare Earth Oxide |
| Samples: |
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| Customization: |
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Erbium(III) oxide, is synthesized from the lanthanide metal erbium. It has a pink color with a cubic crystal structure. Under certain conditions, erbium oxide can also have a hexagonal form.
HM stocks a wide variety of rare earth materials for use in electronics, petrochemical, metallurgy, machinery, energy, environmental protection, agriculture, and other fields. We also offer pure metals and compounds for R&D applications.
A pink colorant used in the manufacture of crystal glass and ceramic glazes. Used in glaze as a pure oxide versus stain, excellent transparency and translucency can be achieved.
Erbium Oxide also called Erbia, is an important colorant in glasses and porcelain enamel glazes. High purity Erbium Oxide is widely applied as a dopant in making optical fiber and amplifiers. It is particularly useful as an amplifier for fiber optic data transfer. Erbium Oxide has a pink color and is sometimes used as a colorant for glass, cubic zirconia, and porcelain. The glass is then often used in sunglasses and cheap jewelry.
| Grade | 99.9999% | 99.999% | 99.99% | 99.9% | 99% |
| CHEMICAL COMPOSITION | |||||
| Er2O3 /TREO (% min.) | 99.9999 | 99.999 | 99.99 | 99.9 | 99 |
| TREO (% min.) | 99.5 | 99 | 99 | 99 | 99 |
| Loss On Ignition (% max.) | 0.5 | 0.5 | 1 | 1 | 1 |
| Rare Earth Impurities | ppm max. | ppm max. | ppm max. | % max. | % max. |
| Tb4O7/TREO Dy2O3/TREO Ho2O3/TREO Tm2O3/TREO Yb2O3/TREO Lu2O3/TREO Y2O3/TREO |
0.1 0.1 0.2 0.5 0.5 0.5 0.3 |
2 5 5 2 1 1 1 |
20 10 30 50 10 10 20 |
0.01 0.01 0.035 0.03 0.03 0.05 0.1 |
0.05 0.1 0.3 0.3 0.3 0.1 0.6 |
The applications of Er2O3 are varied due to their electrical, optical, and photoluminescence properties. Nanoscale materials doped with Er+3 are of much interest because they have special particle-size-dependent optical and electrical properties. Erbium oxide doped nanoparticle materials can be dispersed in glass or plastic for display purposes, such as display monitors. The spectroscopy of Er+3 electronic transitions in host crystals lattices of nanoparticles combined with ultrasonically formed geometries in an aqueous solution of carbon nanotubes is of great interest for the synthesis of photoluminescence nanoparticles in 'green' chemistry. Erbium oxide is among the most important rare earth metals used in biomedicine. The photoluminescence property of erbium oxide nanoparticles on carbon nanotubes makes them useful in biomedical applications. Erbium oxides are also used as gate dielectrics in semiconductor devices since it has a high dielectric constant (10-14) and a large bandgap. Erbium is sometimes used as a coloring for glasses and erbium oxide can also be used as a burnable neutron poison for nuclear fuel.
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