Description
Specifications Table
Product Name – Lanthanum(III) oxalate decahydrate, REacton™, 99.99% (REO) Quantity/Pack Size – 50g Form – Crystalline powder Grade – REacton™, 99.99% (REO) Application – Synthesis, analytical chemistry
Product Overview
Lanthanum(III) Oxalate Decahydrate, offered under the REacton™ brand with a purity of 99.99% (REO), is a high-quality chemical compound designed for precision applications in laboratory settings. This crystalline powder is synthesized under stringent quality controls to ensure consistency and reliability in experimental procedures. The compound is particularly valued for its role in synthesis processes, where its high purity minimizes impurities that could interfere with reactions or analytical results. Its stable crystalline form allows for easy handling and accurate measurement, making it a preferred choice for researchers and chemists working on complex formulations. The decahydrate form ensures optimal solubility in aqueous solutions, facilitating seamless integration into various protocols. Whether used as a precursor in material synthesis or as a reagent in analytical chemistry, this product delivers exceptional performance, supporting reproducible and high-accuracy outcomes. The REacton™ grade signifies adherence to rigorous purity standards, ensuring that each batch meets the demands of advanced scientific research.
FAQs
1. What is the solubility of Lanthanum(III) Oxalate Decahydrate in water?
Lanthanum(III) Oxalate Decahydrate exhibits moderate solubility in water, which can be enhanced by adjusting the pH or temperature of the solution for specific applications.
2. Can this compound be used in non-aqueous solvents?
While primarily designed for aqueous systems, it can be partially soluble in certain polar organic solvents, though its performance may vary depending on the solvent’s properties.
3. What precautions should be taken during storage?
Store the compound in a tightly sealed container in a cool, dry place, away from moisture and direct sunlight to maintain its stability and prevent degradation.
4. Is this product compatible with standard glassware?
Yes, it is compatible with borosilicate glassware commonly used in laboratories, but avoid prolonged contact with highly alkaline or acidic solutions to prevent potential reactions.
5. Are there any known alternatives to this compound for similar applications?
Alternatives may include other lanthanum salts like lanthanum chloride or nitrate, though their solubility and reactivity profiles differ, requiring adjustments in experimental protocols.
