For professionals in the chemical and life sciences industries, a deep understanding of a compound's chemistry is the foundation for its effective application and procurement. Apigenin, a well-known flavonoid with the CAS number 520-36-5, offers a fascinating interplay of chemical structure and functional properties that are driving its adoption across various sectors. Exploring its chemistry can illuminate pathways for innovation and inform sourcing strategies.

Apigenin's chemical identity, C15H10O5, points to its classification as a flavone. This structure dictates its physical characteristics, typically appearing as a yellow powder, and its chemical behavior. Its molecular weight is approximately 270.24 g/mol. Key to its utility are its phenolic hydroxyl groups, which contribute significantly to its potent antioxidant activity. These groups enable Apigenin to neutralize free radicals, a mechanism highly valued in applications ranging from pharmaceutical research to the stabilization of materials against oxidative degradation.

From a sourcing perspective, the purity of Apigenin (CAS 520-36-5) is a direct consequence of its synthesis or extraction and purification processes. Manufacturers typically offer purities of 95% or higher, with analytical methods like HPLC being standard for verification. For R&D scientists, understanding the exact purity and any potential impurities is crucial for experimental design and the interpretation of results. When looking to buy Apigenin, clear specifications from the supplier are non-negotiable.

The physical properties of Apigenin, such as its melting point (often exceeding 300°C for high-purity grades) and solubility (typically soluble in DMSO and DMF), are also important considerations for formulators and process chemists. These parameters influence how Apigenin can be incorporated into different matrices, whether it's a solvent-based system for chemical synthesis or a formulation requiring specific dissolution characteristics.

Identifying a knowledgeable Apigenin manufacturer or supplier is essential for obtaining high-quality material. Whether you are exploring its use as a textile colorant, a UV absorber, or a bioactive compound for pharmaceutical research, understanding the chemistry behind Apigenin (CAS 520-36-5) empowers you to make informed decisions. Obtaining detailed product information and quotes from trusted sources ensures that your innovative applications are built on a solid chemical foundation.