Description
Specifications Table
Product Name – p-Anisidine 98% For Synthesis Quantity/Pack Size – 250 g, 500 g Form – Solid (Crystalline) Grade – For Synthesis Application – Organic synthesis, chemical research
Product Overview
p-Anisidine 98% for synthesis is a high-purity aromatic amine widely used in organic chemistry and research laboratories. This lab-grade chemical features a crystalline solid form with a minimum assay of 98%, ensuring consistent performance in synthesis reactions. Its molecular structure, comprising a methoxy-substituted aniline, makes it a key intermediate in the production of dyes, pharmaceuticals, and agrochemicals. The compound is carefully purified to remove impurities, providing researchers with a reliable reagent for precise experimental outcomes. Stored under cool, dry conditions, p-Anisidine maintains stability and extends shelf life, making it ideal for long-term lab use. Compatible with standard organic solvents, it integrates seamlessly into existing synthesis protocols. Whether used in small-scale academic experiments or larger research projects, this synthesis-grade p-Anisidine delivers the purity and reactivity required for demanding applications.
FAQs
1. What is the melting point of p-Anisidine 98%?
The melting point of p-Anisidine typically ranges between 57-60°C, depending on the purity and handling conditions.
2. Is this product compatible with common organic solvents?
Yes, p-Anisidine 98% is soluble in most organic solvents like ethanol, methanol, and acetone, making it versatile for synthesis.
3. How should p-Anisidine be stored to maintain stability?
Store in a tightly sealed container away from light, moisture, and heat to prevent degradation and oxidation.
4. Are there any safety precautions for handling p-Anisidine?
Wear protective gloves, goggles, and lab coats, and handle in a well-ventilated area due to its potential irritant properties.
5. Can this product be used in pharmaceutical synthesis?
Yes, its high purity makes it suitable for pharmaceutical intermediate synthesis, provided proper protocols are followed.
—
