2-Formylfuran-5-Boronic Acid: A Key Pharmaceutical Intermediate
Essential building block for advanced pharmaceutical synthesis, particularly for Lapatinib.
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2-Formylfuran-5-Boronic Acid
As a critical pharmaceutical intermediate, 2-Formylfuran-5-Boronic Acid (CAS: 27329-70-0) plays a pivotal role in the synthesis of complex drug molecules. Its unique chemical structure makes it an indispensable component in reactions such as Suzuki coupling, facilitating the creation of advanced pharmaceutical compounds like Lapatinib, a vital treatment for specific types of cancer. The compound is characterized by its beige to brown powder appearance and high purity, typically exceeding 98%, ensuring reliability in demanding synthetic processes.
- This furan boronic acid derivative is a crucial component in organic synthesis, enabling the construction of complex molecular architectures.
- Leveraging Suzuki coupling reagents for pharma, this intermediate contributes to the efficient creation of active pharmaceutical ingredients.
- The high purity of 2-formylfuran-5-boronic acid for pharmaceutical use ensures consistent and reproducible results in drug manufacturing.
- It serves as an essential lapatinib intermediate, underpinning the production of this important oncology medication.
Key Advantages
High Purity and Quality
With purity levels of 98-99%, this compound guarantees reliable outcomes in sensitive pharmaceutical synthesis, making it a trusted choice for drug manufacturers.
Versatile Reactivity
Its bifunctional nature makes it highly reactive, particularly in Suzuki coupling reactions, enabling the efficient synthesis of lapatinib using 2-formylfuran-5-boronic acid.
Crucial for Lapatinib Production
This compound is a direct precursor in the manufacturing process of Lapatinib, a targeted therapy drug, highlighting its significance in the pharmaceutical supply chain.
Key Applications
Lapatinib Synthesis
The primary application is as a key intermediate in the multi-step synthesis of Lapatinib, an important anti-cancer drug.
Organic Synthesis
Utilized in various organic synthesis pathways, especially in Suzuki coupling reactions, to create complex carbon-carbon bonds.
Pharmaceutical Research
Serves as a valuable reagent in pharmaceutical research and development for creating novel drug candidates and studying their properties.
Material Science
Potential applications in material science where furan-based structures are explored for their electronic or optical properties.
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