Description
Specifications Table
Product Name – N-Methylmorpholine, 99.5%, purified by redistillation, AcroSeal®
Quantity/Pack Size – 1LT, 100ML
Form – Liquid
Grade – 99.5% Pure, Redistilled
Application – Solvent, catalyst, and reagent in organic synthesis
Product Overview
N-Methylmorpholine (99.5%) is a high-purity, redistilled amine solvent designed for demanding laboratory applications. The AcroSeal® packaging ensures minimal moisture absorption, preserving the compound’s integrity for extended shelf life. This colorless to pale yellow liquid offers excellent solubility in polar and nonpolar solvents, making it a versatile choice for organic synthesis, pharmaceutical intermediates, and catalytic reactions. Its low volatility and high boiling point (115-117°C) enhance stability during prolonged reactions. The redistillation process removes impurities, ensuring consistent performance in sensitive applications. Compatible with most glass and stainless-steel labware, it is a reliable alternative to pyridine or triethylamine in base-catalyzed processes. Store in a cool, dry place away from oxidizing agents to maintain purity. The AcroSeal® bottle features a tamper-evident cap for secure handling and reduced contamination risk.
FAQs
1. What is the boiling point of N-Methylmorpholine?
The boiling point ranges between 115-117°C under standard conditions.
2. Is this product compatible with plastic containers?
It is recommended to use glass or stainless-steel containers, as prolonged contact with certain plastics may cause degradation.
3. How does redistillation improve the quality of N-Methylmorpholine?
Redistillation removes residual moisture and volatile impurities, enhancing purity and reaction consistency.
4. Can this be used as a substitute for triethylamine?
Yes, it serves as a less volatile and more stable alternative in many base-catalyzed reactions.
5. What precautions should be taken during storage?
Store in a tightly sealed AcroSeal® bottle in a cool, well-ventilated area, away from heat and oxidizing agents.
