Description
Specifications Table
Product Name – Quinizarine for Synthesis 95.0%
Quantity/Pack Size – 25gm, 100gm, 500gm
Form – Powder
Grade – Synthesis Grade
Application – Organic Synthesis, Dye Production
Product Overview
Quinizarine for Synthesis 95.0% is a premium-grade organic compound widely used in laboratory settings for various synthesis applications. This high-purity quinizarine is carefully manufactured to meet stringent quality standards, ensuring consistent performance in research and development. Its 95.0% purity level makes it suitable for demanding chemical reactions and dye production processes. The compound exhibits excellent solubility in common organic solvents, making it easy to handle and incorporate into synthesis protocols. Its stable molecular structure ensures reliable results in experimental setups. This product is ideal for researchers, educators, and students involved in organic chemistry and related fields. The synthesis-grade quality guarantees minimal impurities, reducing the risk of contamination in sensitive laboratory procedures. Whether used for academic research or industrial applications, Quinizarine 95.0% delivers the precision and reliability required for successful outcomes. Its versatility makes it a valuable addition to any laboratory’s chemical inventory.
FAQs
1. What is the primary use of Quinizarine 95.0%?
Quinizarine 95.0% is primarily used in organic synthesis and dye production due to its high purity and reactivity.
2. Is this product suitable for academic research?
Yes, Quinizarine 95.0% is commonly used in academic research for teaching and experimental purposes.
3. What solvents are compatible with Quinizarine 95.0%?
Quinizarine 95.0% is soluble in common organic solvents like ethanol, acetone, and dimethylformamide.
4. How should Quinizarine 95.0% be stored?
Store Quinizarine 95.0% in a cool, dry place away from direct sunlight and moisture.
5. What are the alternatives to Quinizarine 95.0%?
Alternatives include other anthraquinone derivatives with similar properties for synthesis applications.
