Description
Specifications Table
Product Name – CYCLOHEXANE 99% For Synthesis Quantity/Pack Size – 500 ml, 2500 ml Form – Liquid Grade – For Synthesis (99% Purity) Application – Solvent for organic synthesis, extractions, chromatography
Product Overview
CYCLOHEXANE 99% For Synthesis is a high-purity, non-polar solvent designed for laboratory applications requiring consistent performance and minimal impurities. With a purity level of 99%, this cyclohexane variant ensures reliable results in organic synthesis, extractions, and chromatographic separations. Its low moisture content (<0.01%) prevents unwanted side reactions, making it suitable for sensitive procedures. The solvent’s stable chemical structure and narrow boiling range (80.7°C) enhance reproducibility in experimental setups. Packaged in amber glass bottles to prevent photodegradation, it maintains integrity during storage and handling. Compatible with most organic compounds, it serves as an effective medium for dissolving non-polar substances without residual contamination. The synthesis-grade certification guarantees adherence to strict quality standards, ensuring compatibility with analytical and preparative workflows. Whether used as a reaction medium or for purification steps, this cyclohexane delivers consistent performance across diverse lab protocols.
FAQs
1. What is the boiling point of this cyclohexane?
The boiling point is approximately 80.7°C at standard atmospheric pressure.
2. Can it be used with polar solvents?
Cyclohexane is non-polar and immiscible with highly polar solvents like water but mixes well with other non-polar or weakly polar organic solvents.
3. How should it be stored for long-term use?
Store in a tightly sealed container in a cool, well-ventilated area away from ignition sources and direct sunlight.
4. Is this cyclohexane suitable for HPLC applications?
While primarily used in synthesis, its high purity makes it compatible with some HPLC mobile phases, but UV-grade solvents are typically preferred for HPLC.
5. What alternatives exist for similar applications?
Hexane or heptane can serve as alternatives, though their boiling points and polarity differ slightly.
