Description
Specifications Table
Product Name – Ruthenium(III) chloride, 99.9%, (trace metal basis), anhydrous
Quantity/Pack Size – 2GR, 10GR, 50GR
Form – Solid (powder/crystals)
Grade – 99.9% (trace metal basis)
Application – Catalysis, chemical synthesis, research-grade reactions
Product Overview
Ruthenium(III) chloride, 99.9% pure (trace metal basis), anhydrous, is a high-grade chemical compound essential for specialized laboratory applications. This product is meticulously processed to ensure minimal impurities, making it ideal for catalytic reactions, chemical synthesis, and advanced research. The anhydrous form guarantees stability and consistent performance in sensitive experiments. Its high purity level (99.9%) ensures reliable results, particularly in trace metal analysis and precision chemistry. The compound’s crystalline structure allows for easy handling and accurate dosing, while its low moisture content prevents unwanted side reactions. Whether used as a catalyst precursor or in coordination chemistry, this ruthenium(III) chloride delivers exceptional consistency. The product is packaged in airtight containers to maintain its integrity during storage and transportation. Researchers and chemists can rely on its uniformity for reproducible outcomes in demanding laboratory environments.
FAQs
1. What is the shelf life of ruthenium(III) chloride in anhydrous form?
When stored in a cool, dry place in its original sealed container, the product retains its stability for up to 24 months from the date of manufacture.
2. Is this ruthenium(III) chloride compatible with organic solvents?
Yes, it dissolves in polar solvents like water and alcohols, but solubility varies with temperature and solvent polarity.
3. Are there lower-purity alternatives available for general lab use?
Lower-grade ruthenium(III) chloride (98% or 95%) may be available, but they are not recommended for trace metal-sensitive applications.
4. How should I store this compound to prevent degradation?
Store in a desiccator or airtight container away from moisture and direct sunlight to preserve its anhydrous properties.
5. Can this product be used in electrochemical applications?
Yes, its high purity makes it suitable for electrocatalysis and related electrochemical research.
