Description
Specifications Table
Product Name – Sodium Peroxide ER
Quantity/Pack Size – Available in: 500 GM, 100 G
Form – Solid (Powder)
Grade – ER (Extra Pure / Analytical Reagent)
Application – Strong Oxidizing Agent, Oxygen Source, Chemical Synthesis, Analytical Chemistry
product overview
Sodium Peroxide ER (Extra Pure) stands as a vital and versatile chemical compound in various laboratory settings, renowned for its exceptional purity and robust oxidizing properties. This high-grade inorganic compound is meticulously prepared to meet stringent quality standards, ensuring reliability and consistency for demanding scientific and experimental procedures. As a powerful oxidizing agent, Sodium Peroxide finds extensive utility in a wide array of chemical reactions, including the synthesis of various compounds, where its ability to donate oxygen atoms is critical. Its ER grade designation signifies a superior level of purity, making it suitable for analytical chemistry where the presence of impurities could significantly impact experimental accuracy and reproducibility. Researchers and educators rely on this premium quality Sodium Peroxide for its consistent performance, enabling them to achieve precise and dependable outcomes in their work. It is crucial to handle Sodium Peroxide with appropriate safety measures, given its reactive nature, especially in contact with organic materials or water. Stored correctly in airtight containers, it maintains its stability and efficacy, serving as an indispensable reagent for groundbreaking discoveries and comprehensive chemical education.
FAQs
1. What is Sodium Peroxide ER primarily used for?
Sodium Peroxide ER is primarily used as a strong oxidizing agent in various chemical reactions, a source of oxygen, and for applications in chemical synthesis and analytical chemistry in laboratory environments.
2. Is Sodium Peroxide ER compatible with all lab equipment?
While generally compatible with standard laboratory glassware, it is crucial to avoid contact with materials that can be easily oxidized or are sensitive to strong bases. Always use inert and resistant materials for handling.
3. How should Sodium Peroxide ER be safely stored?
It should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, moisture, and combustible materials. Keep it in its original, tightly sealed container to prevent contamination and reaction with air.
4. What are the key safety precautions when handling Sodium Peroxide ER?
Always wear appropriate personal protective equipment, including safety goggles, gloves, and a lab coat. Handle in a fume hood to avoid inhalation, and ensure good ventilation. Avoid contact with skin, eyes, and clothing, and never mix with organic substances or acids.
5. Can Sodium Peroxide ER be used for water treatment?
While peroxides can be used in water treatment for disinfection or oxidation, Sodium Peroxide ER is a high-purity laboratory reagent. Its specific grade and cost make it unsuitable for large-scale, general water treatment applications where other forms of peroxides or treatments are more economical and practical.
