4-Bromo-3-fluoroanisole CAS 458-50-4: Synthesis, Properties, and Pharmaceutical Applications
Discover the critical role of this halo-aryl compound in creating advanced pharmaceuticals and organic molecules.
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4-Bromo-3-fluoroanisole
4-Bromo-3-fluoroanisole (CAS 458-50-4) stands as a pivotal halo-aryl compound, indispensable in the intricate field of pharmaceutical synthesis. Its primary utility lies in its role as a crucial building block for the development of orally available mGlu1 receptor enhancers, showcasing its significant contribution to neuroscience drug discovery. This compound's structural features make it highly valuable for constructing complex molecular architectures necessary for active pharmaceutical ingredients (APIs).
- Explore the synthesis of 4-bromo-3-fluoroanisole for advanced organic chemistry research. Our high-purity compound is a cornerstone for sophisticated molecular design.
- Understand CAS 458-50-4 applications in pharmaceutical intermediate synthesis. This molecule is vital for creating targeted therapies and improving drug efficacy.
- Leverage 4-bromo-3-fluoroanisole as a chemical building block. Its versatile nature facilitates the creation of novel compounds with specific biological activities.
- Discover the benefits of customized chemical synthesis for your research needs. We provide tailored solutions for complex organic molecules, ensuring precision and quality.
Advantages Offered by the Product
High Purity for Reliable Results
With a guaranteed purity, this chemical building block ensures the reproducibility and accuracy of your pharmaceutical synthesis, critical for advancing drug discovery initiatives.
Versatile Organic Synthesis Applications
The compound's structure makes it an excellent choice for various organic synthesis pathways, enabling the creation of diverse and complex molecules essential for research and development.
Facilitates Development of Novel APIs
By serving as a key intermediate in the preparation of orally available mGlu1 receptor enhancers, it directly contributes to the development of new therapeutic agents.
Key Applications
Pharmaceutical Synthesis
As a critical pharmaceutical intermediate, it's essential for the synthesis of complex active pharmaceutical ingredients, supporting the creation of novel drugs.
Organic Chemistry Research
Its unique structure and reactivity make it a valuable tool for researchers exploring new organic synthesis methodologies and molecular architectures.
Drug Discovery
The compound plays a vital role in the discovery and development of new drug candidates, particularly those targeting specific receptor pathways.
Custom Synthesis
It serves as a foundational material for customized chemical synthesis projects, enabling the creation of specialized molecules tailored to unique research requirements.