Description
Specifications Table
Product Name – Lithium perchlorate, anhydrous, 99%
Quantity/Pack Size – 250g, 50g, 10g
Form – Crystalline powder
Grade – 99% pure, anhydrous
Application – Oxidizing agent, battery research, analytical chemistry
Product Overview
Lithium perchlorate, anhydrous (99% purity), is a highly stable, crystalline powder widely recognized for its strong oxidizing properties. This high-grade chemical is meticulously processed to ensure minimal moisture content, making it ideal for applications requiring precise and reproducible results. Its low hygroscopicity enhances shelf life and reduces handling complications, ensuring reliability in long-term storage. The compound’s high solubility in polar solvents like water and alcohols further broadens its utility in various laboratory protocols. As a non-hydrated form, it eliminates variability introduced by water content, providing consistency in experimental outcomes. Whether used as a catalyst, electrolyte component, or reagent, its purity and stability make it a preferred choice for demanding research environments. Proper storage in a cool, dry place away from organic materials is recommended to maintain its integrity and safety.
FAQs
1. What is the shelf life of anhydrous lithium perchlorate when stored properly?
When stored in a tightly sealed container under cool, dry conditions, anhydrous lithium perchlorate retains its stability for up to 2-3 years. Exposure to moisture or organic contaminants should be avoided to prevent degradation.
2. Is this compound compatible with common laboratory solvents?
Yes, it is highly soluble in polar solvents such as water, methanol, and ethanol. However, compatibility with non-polar solvents like hexane or toluene is limited, and mixing should be avoided unless specified in a validated protocol.
3. Are there safer alternatives to lithium perchlorate for oxidation reactions?
Alternatives like ammonium cerium(IV) nitrate or potassium permanganate can be used for certain oxidation reactions, though they may differ in reactivity and selectivity. The choice depends on the specific requirements of the experiment.
4. What precautions should be taken during handling and storage?
Due to its strong oxidizing nature, it should be handled in a fume hood with proper PPE, including gloves and goggles. Store away from flammable materials, reducing agents, and direct sunlight to minimize hazards.
5. How does the anhydrous form differ from the hydrated version in performance?
The anhydrous form offers higher purity and eliminates variability caused by water content, making it more suitable for applications requiring precise stoichiometry. Hydrated versions may introduce inconsistencies in reactions sensitive to moisture.
