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Name | Lanthanum(III) Oxide |
Formula | La2O3 |
Molar Mass | 325.81 g/mol |
Appearance | white solid |
Melting Point | 2,319 °C |
Boiling Point | 4,000 °C |
Density | 6.51 g/cm3 |
Solubility In Water | insoluble |
Crystal Structure | hexagonal |
Applications | catalyst, phosphors, glass manufacturing |
Health Hazards | low toxicity |
Sources | rare earth minerals |
Production Methods | calcination of lanthanum carbonate |
Purity Grade | analytical grade |
Storage Conditions | store in a cool, dry place away from oxidizing agents |
Packaging Options | available in various sizes including bottles, drums, and custom packaging |
FAQ
What is Lanthanum(III) Oxide for analysis?
Lanthanum(III) Oxide for analysis is a high-quality chemical reagent used for analytical purposes in laboratories. It is a compound containing lanthanum in its +3 oxidation state and oxygen. Lanthanum(III) Oxide is commonly used in a variety of analytical techniques, such as spectroscopy and chromatography, to assist in the identification and quantification of different substances.
How is Lanthanum(III) Oxide for analysis used in laboratory analysis?
Lanthanum(III) Oxide for analysis is primarily used as a reagent or standard in various analytical methods. It can be dissolved in a suitable solvent to prepare a standard solution of known concentration for calibration purposes. Additionally, Lanthanum(III) Oxide can be added directly to samples to facilitate the analysis of specific elements or compounds. Its properties make it a valuable tool in the field of analytical chemistry.
What are the key benefits of using Lanthanum(III) Oxide for analysis?
Some of the key benefits of using Lanthanum(III) Oxide for analysis include its high purity, consistent quality, and compatibility with a wide range of analytical techniques. It also exhibits excellent stability and reliability, making it an ideal choice for both routine and research applications. Furthermore, Lanthanum(III) Oxide is relatively cost-effective compared to other reagents, making it a popular choice among researchers and analysts.
In what analytical applications is Lanthanum(III) Oxide commonly used?
Lanthanum(III) Oxide for analysis is commonly used in various analytical applications, including but not limited to atomic absorption spectroscopy, inductively coupled plasma spectroscopy, and ion chromatography. It is particularly useful in the analysis of metals, minerals, and other inorganic compounds due to its ability to form stable complexes and improve sensitivity. Researchers and analysts across different industries rely on Lanthanum(III) Oxide for accurate and precise results in their analyses.
How can I ensure the proper storage and handling of Lanthanum(III) Oxide for analysis?
Proper storage and handling of Lanthanum(III) Oxide for analysis are essential to maintain its quality and effectiveness. It should be stored in a cool, dry place away from direct sunlight and sources of heat. Additionally, the container should be tightly sealed when not in use to prevent contamination and moisture uptake. When handling Lanthanum(III) Oxide, it is important to wear appropriate personal protective equipment and follow recommended safety precautions to ensure the safety of the user and the integrity of the product.
Lanthanum(III) Oxide for analysis is a high-quality chemical reagent used for analytical purposes in laboratories. It is a compound containing lanthanum in its +3 oxidation state and oxygen. Lanthanum(III) Oxide is commonly used in a variety of analytical techniques, such as spectroscopy and chromatography, to assist in the identification and quantification of different substances.
How is Lanthanum(III) Oxide for analysis used in laboratory analysis?
Lanthanum(III) Oxide for analysis is primarily used as a reagent or standard in various analytical methods. It can be dissolved in a suitable solvent to prepare a standard solution of known concentration for calibration purposes. Additionally, Lanthanum(III) Oxide can be added directly to samples to facilitate the analysis of specific elements or compounds. Its properties make it a valuable tool in the field of analytical chemistry.
What are the key benefits of using Lanthanum(III) Oxide for analysis?
Some of the key benefits of using Lanthanum(III) Oxide for analysis include its high purity, consistent quality, and compatibility with a wide range of analytical techniques. It also exhibits excellent stability and reliability, making it an ideal choice for both routine and research applications. Furthermore, Lanthanum(III) Oxide is relatively cost-effective compared to other reagents, making it a popular choice among researchers and analysts.
In what analytical applications is Lanthanum(III) Oxide commonly used?
Lanthanum(III) Oxide for analysis is commonly used in various analytical applications, including but not limited to atomic absorption spectroscopy, inductively coupled plasma spectroscopy, and ion chromatography. It is particularly useful in the analysis of metals, minerals, and other inorganic compounds due to its ability to form stable complexes and improve sensitivity. Researchers and analysts across different industries rely on Lanthanum(III) Oxide for accurate and precise results in their analyses.
How can I ensure the proper storage and handling of Lanthanum(III) Oxide for analysis?
Proper storage and handling of Lanthanum(III) Oxide for analysis are essential to maintain its quality and effectiveness. It should be stored in a cool, dry place away from direct sunlight and sources of heat. Additionally, the container should be tightly sealed when not in use to prevent contamination and moisture uptake. When handling Lanthanum(III) Oxide, it is important to wear appropriate personal protective equipment and follow recommended safety precautions to ensure the safety of the user and the integrity of the product.