2-Fluoro-5-methylbenzoic Acid: A Key Intermediate in Organic Synthesis
Unlock innovation in pharmaceuticals and agrochemicals with our high-purity fluorinated building block.
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2-Fluoro-5-methylbenzoic Acid
As a vital intermediate for organic synthesis, 2-Fluoro-5-methylbenzoic Acid (CAS 321-12-0) is instrumental in creating complex molecules for various industries. Its precisely engineered structure provides a reliable foundation for developing next-generation pharmaceuticals and advanced agrochemicals.
- Leverage the unique properties of 6-fluoro-m-toluic acid for advanced organic synthesis applications.
- Discover the role of CAS 321-12-0 in pharmaceutical intermediate development and drug discovery.
- Utilize high purity chemical intermediates to ensure the efficacy and consistency of your final products.
- Explore the benefits of fluorinated aromatic compounds in creating molecules with enhanced metabolic stability.
Key Advantages
Exceptional Purity
Achieve superior results in your synthesis projects with chemical intermediates boasting purity levels of u29c399.0%, crucial for sensitive reactions.
Chemical Stability
Benefit from a product with a melting point of 160-162°C, ensuring stability during various reaction conditions and processes.
Synthetic Versatility
Employ a versatile building block that enables the synthesis of complex molecules, including intermediates for kinase inhibitors.
Key Applications
Pharmaceutical Development
Serve as a critical building block in the synthesis of active pharmaceutical ingredients (APIs), particularly in areas like chronic pain management.
Agrochemical Formulations
Contribute to the development of effective herbicides and fungicides that enhance crop protection, a key aspect of agrochemical innovation.
Material Science
Explore its use in creating advanced polymers and coatings that require specific chemical properties for enhanced performance.
Medicinal Chemistry Research
Facilitate the creation of novel therapeutic agents by providing a scaffold for intricate molecular design and modification.