Description
Specifications Table
Product Name – ANTIMONY SULPHIDE GOLDEN Extra Pure
Quantity/Pack Size – 500 g
Form – Powder
Grade – Extra Pure
Application – Analytical reagent, chemical synthesis
Product Overview
ANTIMONY SULPHIDE GOLDEN Extra Pure is a finely powdered, high-purity chemical compound designed for laboratory applications requiring precision and reliability. This extra pure grade ensures minimal impurities, making it ideal for sensitive analytical procedures and chemical synthesis. Its golden hue is characteristic of antimony trisulfide (Sb₂S₃), a compound known for its stability and consistent performance in controlled environments. The powder form allows for easy handling and accurate measurement, ensuring reproducibility in experiments. With its high-grade purity, this reagent meets stringent laboratory standards, providing researchers and chemists with a dependable material for their work. The compound is chemically stable under standard conditions, ensuring long shelf life when stored properly. Its fine particle size enhances solubility and reaction efficiency, making it a preferred choice for demanding applications. Whether used in qualitative analysis or as a precursor in synthesis, this product delivers consistent results, supporting the integrity of scientific research and development.
FAQs
1. What is the chemical formula of Antimony Sulphide Golden?
The chemical formula is Sb₂S₃, representing antimony trisulfide.
2. Is this product suitable for qualitative analysis?
Yes, the extra pure grade makes it well-suited for qualitative analysis due to its high purity and minimal impurities.
3. How should this compound be stored to maintain its purity?
Store in a tightly sealed container in a cool, dry place, away from direct sunlight and moisture.
4. Can this product be used in chemical synthesis?
Yes, it is commonly used as a precursor in various chemical synthesis processes.
5. What is the particle size of this powder?
The product is finely powdered, ensuring easy handling and uniform distribution in reactions.
