Ytterbium oxide
CAS No.
1314-37-0
CAS Nr.:
1314-37-0
EINECS Name
ytterbium (III) oxide
EINECS Name:
ytterbium (III) oxide
EINECS No.
215-234-0
EINECS Nr.:
215-234-0
Synonym
Ytterbium(III)-oxid / Diytterbiumtrioxid / Ytterbiumsesquioxid / Yttria / Diytterbium trioxide / Ytterbium sesquoxide / Yttria
Synonym:
Ytterbium(III)-oxid / Diytterbiumtrioxid / Ytterbiumsesquioxid / Yttria / Diytterbium trioxide / Ytterbium sesquoxide / Yttria
Ytterbium oxide, also known as Ytterbia, is an important chemical raw material widely used in various industries due to its exceptional properties. It plays a central role in numerous technological and industrial processes.
Physical Properties of Ytterbium Oxide
Ytterbium oxide appears as a white to yellowish powder with high purity and stability. It has a molar mass of approximately 394.08 g/mol and a melting point of about 2,350 °C. Ytterbium oxide is insoluble in water but shows good solubility in strong acids. Its high temperature resistance and chemical stability make it an ideal material for various applications.
Application examples of Ytterbium Oxide
Ytterbium oxide is frequently used in the laser industry, particularly in the production of solid-state lasers. Ytterbium-doped lasers are known for their efficiency and stability. They are used in material processing, medical applications, and telecommunications. Additionally, ytterbium oxide is used in fiber optic technology to enhance the performance of fiber optic cables.
In the electronics industry, ytterbium oxide is used as a dopant in various semiconductor materials. It improves the electrical properties of components, enabling the production of high-performance electronic devices. These components are used in computers, mobile devices, and other electronic gadgets.
Ytterbium oxide is also used in the production of high-performance ceramics. Its high temperature resistance and chemical stability make it an ideal material for applications in aerospace, medical technology, and other high-tech fields. It enhances the mechanical properties of ceramics and contributes to the durability of end products.
Ytterbium oxide is a versatile chemical raw material with outstanding physical properties. From laser and fiber optic technology to the electronics industry, ceramic manufacturing, and catalysts in the chemical industry, the versatility of ytterbium oxide makes it an indispensable material in various sectors. With its high temperature resistance and stability, ytterbium oxide will continue to play a significant role in industrial processes and technological advancements in the future.
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