Description
Specifications Table
Product Name – Potassium tert-pentoxide, 0.9M (14 wt.%) solution in cyclohexane, AcroSeal® Quantity/Pack Size – 100ML, 800ML Form – Liquid Grade – AcroSeal® Application – Oxidation, synthesis, organic reactions
Product Overview
Potassium tert-pentoxide, 0.9M (14 wt.%) solution in cyclohexane, is a high-purity reagent designed for precise oxidation and synthesis applications in laboratory settings. This AcroSeal®-grade solution ensures minimal moisture contamination, making it ideal for sensitive reactions where consistency and purity are critical. The cyclohexane solvent provides a stable medium for controlled reactions, enhancing the efficiency of organic transformations. The 0.9M concentration offers a balanced reactivity profile, suitable for a wide range of experimental conditions. The solution is packaged in airtight containers to prevent degradation, ensuring long-term stability and reliability. Whether used in small-scale experiments or larger batch processes, this potassium tert-pentoxide solution delivers reproducible results, making it a trusted choice for researchers and chemists. Its compatibility with standard laboratory equipment and protocols further enhances its versatility in diverse chemical applications.
FAQs
1. What is the shelf life of potassium tert-pentoxide solution?
The shelf life is typically 12 months when stored unopened in a cool, dry place away from direct sunlight.
2. Is this solution compatible with glassware?
Yes, it is compatible with standard borosilicate glassware commonly used in laboratories.
3. Can this solution be used for large-scale synthesis?
While primarily designed for lab-scale applications, it can be scaled up with proper handling and safety measures.
4. How should this solution be stored?
Store in a tightly sealed container in a well-ventilated area, away from heat and ignition sources.
5. Are there alternatives to cyclohexane as a solvent?
Alternatives like toluene or hexane may be used, but cyclohexane is preferred for its stability and compatibility.
