Description
Specifications Table
Product Name-Syringaldehyde (4-Hydroxy-3,5-Dimethoxy-Benzaldehyde)
Quantity/Pack Size-5 gm, 25 gm, 100 gm
Form-Powder
Grade-Analytical Reagent
Application-Research, Analysis
Product Overview
Syringaldehyde, also known as 4-Hydroxy-3,5-Dimethoxy-Benzaldehyde, is a high-purity compound widely used in laboratory research and analytical applications. This compound is characterized by its distinct chemical structure, featuring a hydroxyl group and two methoxy groups attached to a benzene ring. Its high purity ensures reliable results in various scientific experiments, making it an essential reagent for researchers and educators. Syringaldehyde is particularly valued for its role in organic synthesis, biochemical studies, and pharmaceutical research. Its stability and solubility properties make it a versatile choice for a wide range of laboratory procedures. Equipped with superior quality standards, this product meets the stringent requirements of academic and industrial labs, ensuring accurate and reproducible outcomes. Whether used in teaching labs or advanced research settings, Syringaldehyde provides the precision and reliability needed for successful scientific investigations.
FAQs
1. What is the primary use of Syringaldehyde in labs?
Syringaldehyde is primarily used in organic synthesis, biochemical research, and pharmaceutical studies due to its unique chemical properties.
2. Is this Syringaldehyde suitable for educational purposes?
Yes, it is ideal for educational labs, providing high purity for teaching and experimental demonstrations.
3. How should Syringaldehyde be stored for optimal stability?
Store in a cool, dry place away from direct sunlight and moisture to maintain its integrity.
4. Can Syringaldehyde be used in organic synthesis reactions?
Yes, it is commonly used in organic synthesis due to its reactive functional groups.
5. What are the key chemical properties of Syringaldehyde?
It features a hydroxyl group and two methoxy groups attached to a benzene ring, enhancing its reactivity in lab applications.
