For chemists and pharmaceutical scientists, a deep understanding of a compound's synthesis and properties is fundamental to its effective utilization. 4,7-Dihydroxycoumarin (CAS 1983-81-9), a significant pharmaceutical intermediate, boasts a fascinating chemical profile and can be produced through well-established synthetic routes. As a leading manufacturer in China, we are pleased to share insights into the chemical synthesis and properties of this valuable compound, helping researchers and procurement managers make informed decisions when they buy 4,7-dihydroxycoumarin.

The synthesis of 4,7-Dihydroxycoumarin typically involves multi-step organic reactions. A common approach often starts with readily available precursors, utilizing reactions such as condensation and subsequent functionalization. For example, a process might involve the condensation of a suitably substituted salicylaldehyde derivative with malonic acid or its ester in the presence of a catalyst, followed by specific reactions to introduce hydroxyl groups at the 4 and 7 positions of the benzopyran-2-one core. Achieving high yields and purity often requires careful control of reaction conditions, including temperature, solvent choice, and catalyst selection. Our expertise as a manufacturer ensures that these processes are optimized for quality.

Once synthesized, 4,7-Dihydroxycoumarin exhibits a range of important physical and chemical properties. It is typically found as a white to pale yellow solid, with a relatively high melting point, often exhibiting decomposition upon melting. Its solubility characteristics are also noteworthy; it is generally more soluble in polar organic solvents like ethanol and methanol, and less soluble in water, though the presence of hydroxyl groups does impart some polarity. Understanding these properties is crucial for chemists when planning reactions or formulations. For researchers needing this intermediate, sourcing from a reliable supplier like us is key to ensuring consistent material properties.

Chemically, the hydroxyl groups on the coumarin ring are reactive sites. They can undergo various reactions, such as etherification, esterification, and glycosylation, allowing for the synthesis of a wide array of derivatives. The compound's antioxidant activity stems from its ability to donate hydrogen atoms from these hydroxyl groups, neutralizing free radicals. This chemical reactivity makes it an excellent building block for creating more complex molecules with tailored properties for pharmaceutical applications.

When considering the procurement of 4,7-Dihydroxycoumarin, factors such as the 4,7-dihydroxycoumarin price are important, but should be balanced with the assurance of quality and scientific support. As a direct manufacturer in China, we provide high-purity material along with detailed technical specifications, empowering your research. Our commitment extends to offering reliable supply chains and responsive customer service to facilitate your procurement process.

In summary, the synthesis and properties of 4,7-Dihydroxycoumarin (CAS 1983-81-9) underscore its importance as a versatile pharmaceutical intermediate. Its chemical reactivity and physical characteristics make it a valuable compound for various research and development activities. We encourage those looking to buy 4,7-dihydroxycoumarin to partner with us for high-quality products and dependable service.