Methyl 3-Fluoro-4-Hydroxybenzoate: A Versatile Organic Synthesis Intermediate
Discover the chemical properties and diverse applications of this crucial fluorinated benzoic acid derivative.
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Methyl 3-Fluoro-4-Hydroxybenzoate
Methyl 3-fluoro-4-hydroxybenzoate is a valuable organic compound with the CAS number 403-01-0. It serves as a critical building block in various chemical synthesis processes, particularly within the pharmaceutical industry. Its unique structure, featuring a fluorine atom and a hydroxyl group on the benzene ring, imparts specific reactivity and properties making it sought after for developing complex molecules.
- Explore the key applications of Methyl 3-fluoro-4-hydroxybenzoate in organic synthesis, facilitating the creation of novel compounds.
- Understand the chemical properties and synthesis routes for CAS 403-01-0, ensuring optimal utilization in research and production.
- Discover why this fluorinated benzoic acid derivative is essential for pharmaceutical intermediate suppliers.
- Learn about the benefits of sourcing high purity organic chemicals for your critical research projects.
Advantages Provided by the Product
Versatile Building Block
Leverage the reactivity of this compound, a key intermediate for various organic synthesis pathways, aiding in the development of new chemical entities.
High Purity Assurance
Ensure reliable results in your research by utilizing high purity organic chemicals, critical for precise outcomes in chemical reactions.
Facilitates Fluorination
The presence of fluorine enhances lipophilicity and metabolic stability, making this a valuable fluorinated benzoic acid derivative for drug discovery.
Key Applications
Organic Synthesis
As a critical intermediate, its precise structure and reactivity make it ideal for complex organic synthesis procedures.
Pharmaceutical Intermediates
This compound is widely used by pharmaceutical intermediate suppliers in the development of Active Pharmaceutical Ingredients (APIs).
Research & Development
Essential for R&D laboratories seeking to explore novel chemical structures and potential new compounds.
Material Science
Its unique chemical properties may lend themselves to applications in advanced material science research.