At NINGBO INNO PHARMCHEM CO.,LTD, we believe that a thorough understanding of a compound's chemical foundation is paramount to its effective utilization. Daidzein, identified by CAS number 486-66-8, is a fascinating isoflavone whose chemical properties dictate its diverse applications in pharmaceuticals and scientific research. This article delves into the molecular structure, physical attributes, and common synthesis routes of Daidzein.

Daidzein, with the molecular formula C15H10O4 and a molecular weight of 254.24, is characterized by its isoflavone backbone, featuring two phenolic hydroxyl groups. Its CAS number, 486-66-8, is widely recognized in the chemical and pharmaceutical industries. Physically, Daidzein typically appears as a white to off-white powder. Key physical properties include a melting point of 315-323°C (with decomposition), a boiling point of approximately 317.45°C, and a density of 1.1629. Its solubility profile indicates good solubility in DMSO but limited solubility in water, a factor that influences its bioavailability and formulation strategies.

The synthesis of Daidzein is a subject of considerable interest, particularly for ensuring high purity and yield. Several methods have been developed, often involving the manipulation of precursor molecules to construct the characteristic isoflavone ring system. One common approach involves the cyclization and subsequent functionalization of substituted chalcones or deoxybenzoins. For instance, reactions utilizing reagents like methanesulfonyl chloride or employing various catalytic systems, such as those involving palladium, are often employed in its synthesis. Research also explores enzymatic methods for preparing Daidzein, aiming for more sustainable and efficient production. For example, the enzymatic hydrolysis of daidzin using enzymes derived from microorganisms like Aspergillus niger or Penicillium multicolor is a notable method for obtaining Daidzein.

Understanding the daidzein chemical structure is crucial for appreciating its biological activities. The presence of hydroxyl groups at the 7 and 4' positions contributes to its estrogen-like effects and its ability to interact with biological receptors. Researchers often study the relationship between structural modifications and biological activity, which is vital for developing new therapeutic agents. The pursuit of optimized daidzein synthesis is driven by the demand for high-purity material for pharmaceutical intermediates and research purposes. NINGBO INNO PHARMCHEM CO.,LTD is committed to providing Daidzein that adheres to strict chemical specifications, ensuring reliability for all scientific and industrial applications.

In summary, the chemical properties and synthesis of Daidzein (CAS 486-66-8) are central to its value in the scientific community. Its distinct molecular structure and the various pathways for its production underscore its importance as a key pharmaceutical intermediate and a subject of ongoing research. We are dedicated to supplying high-quality Daidzein that meets the rigorous demands of our clients.