Description
Specifications Table
Product Name – Erbium(III) nitrate pentahydrate, 99.9%, (trace metal basis)
Quantity/Pack Size – 25GR, 100GR
Form – Crystalline powder
Grade – 99.9% (trace metal basis)
Application – High-precision lab synthesis, optical doping
Product Overview
Erbium(III) nitrate pentahydrate, 99.9% pure (trace metal basis), is a high-grade rare earth compound designed for demanding laboratory applications. This crystalline powder offers exceptional solubility in polar solvents, making it ideal for precise synthesis and doping processes. The trace metal basis ensures minimal impurities, guaranteeing reliable results in sensitive experiments. Its stable hydrate form maintains consistent performance across various conditions, while the 99.9% purity level meets stringent analytical requirements. The compound’s unique optical properties stem from erbium’s characteristic f-orbitals, making it valuable in specialized research applications. Each batch undergoes rigorous quality control to maintain consistent composition and performance. The product is packaged in airtight containers to prevent moisture absorption and contamination, preserving its high purity until use.
FAQs
1. What is the solubility of erbium nitrate pentahydrate?
It is highly soluble in water and polar organic solvents like ethanol, forming clear solutions suitable for various synthesis protocols.
2. Can this be used for optical material preparation?
Yes, the 99.9% purity and trace metal basis make it suitable for preparing optical materials where erbium doping is required.
3. How should this compound be stored for long-term use?
Store in a cool, dry place in its original sealed container to prevent hydration changes and contamination.
4. Is this product compatible with standard glassware?
Yes, it can be safely handled in borosilicate glass containers under normal laboratory conditions.
5. What alternatives exist for erbium-based applications?
Erbium chloride or erbium oxide may serve as alternatives depending on the specific application requirements and solubility needs.
