Lanthanum oxide
[CAS# 1312-81-8]

Identification

• Classification: Inorganic chemical industry >> Inorganic salt >> Oxides of rare earth metals, yttrium or scandium
• Name: Lanthanum oxide
• Synonyms: Lanthanum(III) oxide
• Molecular Formula: La₂O₃
• Molecular Weight: 325.81
• CAS Registry Number: 1312-81-8
• EC Number: 215-200-5
• SMILES: [O-2].[O-2].[O-2].[La+3].[La+3]

Properties

• Density: 6.51
• Melting point: 2315 ºC
• Boiling point: 4200 ºC
• Water solubility: INSOLUBLE

Safety Data

• Hazard Symbols: GHS07 Warning
• Hazard Statements: H315-H319-H335
• Precautionary Statements: P261-P264-P264+P265-P271-P280-P302+P352-P304+P340-P305+P351+P338-P319-P321-P332+P317-P337+P317-P362+P364-P403+P233-P405-P501

Discovory and Applicatios

The discovery of lanthanum oxide dates back to the early 19th century, when rare earth elements were being explored intensively. Swedish chemist Carl Gustav Mosander discovered lanthanum in 1839 while studying cerium nitrate, a compound extracted from the mineral cerium ore. By dissolving a cerium salt in nitric acid and carefully separating its components, Mosander isolated a new element, which he named lanthanum (from the Greek "lanthanein," meaning "hidden"), indicating that it had previously been hidden.

Early methods for isolating lanthanum involved the fractional crystallization of cerium salts. This technique enabled Mosander to separate lanthanum from cerium by exploiting subtle differences in their solubility. Lanthanum oxide in its oxide form is obtained by reducing lanthanum salts, such as lanthanum nitrate or chloride, usually using high temperatures or a reducing agent. Lanthanum oxide has the chemical formula La₂O₃ and forms a hexagonal crystal structure. The compound is highly transparent in the ultraviolet and visible regions, which has optical applications.

Lanthanum oxide is widely used in catalytic petroleum cracking, a key process in refining crude oil into gasoline and other products. In fluid catalytic cracking (FCC), La₂O₃ is used as a promoter in the catalyst to increase conversion efficiency and selectivity. Lanthanum oxide is used as a dielectric material in electronic devices due to its high dielectric constant and insulating properties. It is used in the production of ceramic capacitors, which are essential components in a variety of electronic circuits and devices. The high transparency and refractive index of lanthanum oxide make it valuable in the production of optical coatings. It is used in lenses, mirrors, and optical filters to improve performance and durability.

Lanthanum oxide is used in automotive catalytic converters, particularly in three-way catalysts for emissions control. It helps enhance the reduction of nitrogen oxides (NOx) and the oxidation of hydrocarbons (HC) and carbon monoxide (CO), thereby reducing harmful vehicle emissions. In addition to its use in FCC, La₂O₃ is used as a catalyst in a variety of industrial processes, including the production of synthetic fuels and chemicals. Its catalytic properties increase reaction rates and selectivity, helping to make industrial operations more efficient and sustainable.

Lanthanum oxide is used to produce specialty glasses with high refractive index and low dispersion. These glasses are essential in optical instruments such as cameras, microscopes and telescopes. Lanthanum oxide is also used to produce phosphors for lighting. Phosphors containing lanthanum are used in fluorescent lamps and other lighting technologies to convert ultraviolet light into visible light, improving efficiency and color rendering.

Due to its high melting point and thermal stability, lanthanum oxide is used in the development of high-temperature ceramics and refractory materials. These materials are essential in applications involving extreme heat, such as furnaces, kilns and aerospace components. Lanthanum oxide is a key ingredient in the synthesis of high-temperature superconductors, a type of material that exhibits superconductivity at relatively high temperatures. These superconductors can be used in magnetic resonance imaging (MRI), power transmission and advanced electronic devices. Lanthanum oxide is used as a support material for catalysts in various chemical reactions. Its high surface area and stability make it suitable for dispersing and supporting active catalytic species, improving the overall efficiency of the catalytic process.

Lanthanum oxide is used to make solid oxide fuel cells, a type of fuel cell that operates at high temperatures and efficiently converts chemical energy into electrical energy. La₂O₃ is used as a component of the electrolyte or electrode material, which helps improve the performance and durability of the battery. The compound can also be used in renewable energy technologies such as solar cells.