Description
Specifications Table
Product Name – Silica Gel 100-200 mesh Fia grade
Quantity/Pack Size – 500 gm, 5 kg, 25 kg
Form – Granular
Grade – Fia grade
Application – Chromatography, lab separations
Product Overview
Silica Gel 100-200 mesh Fia grade is a high-purity, finely graded adsorbent designed for superior chromatographic separations. Manufactured under stringent quality standards, it ensures consistent performance in analytical and preparative applications. The 100-200 mesh size provides an optimal balance of surface area and flow rate, making it ideal for column chromatography, thin-layer chromatography (TLC), and other lab techniques. This Fia-grade silica gel is chemically inert, thermally stable, and free from impurities, ensuring reliable results in research and educational settings. Its uniform particle size distribution enhances separation efficiency, while its high surface area maximizes adsorption capacity. Whether used in academic labs, research institutions, or industrial settings, this silica gel delivers precision and reproducibility. The product is packaged in airtight containers to maintain its integrity and performance over time.
FAQs
1. What is the primary use of Silica Gel 100-200 mesh Fia grade?
It is primarily used for chromatographic separations, including column chromatography and thin-layer chromatography (TLC), due to its high purity and uniform particle size.
2. Is this silica gel suitable for preparative chromatography?
Yes, its 100-200 mesh size and Fia grade make it ideal for both analytical and preparative chromatography applications.
3. How should Silica Gel 100-200 mesh Fia grade be stored?
Store it in a cool, dry place away from moisture and direct sunlight to prevent degradation and maintain its adsorption properties.
4. Can this silica gel be used in educational labs?
Absolutely, it is widely used in academic and research labs for teaching and experimental purposes.
5. What makes this silica gel different from other grades?
The Fia grade ensures high purity and consistency, making it suitable for precise separations in chromatography.
