For chemists engaged in organic synthesis, Tetrahydroxyquinone (CAS 319-89-1) presents itself as a unique and valuable building block. Its rich functional group arrangement—four hydroxyl groups and two ketone groups on a cyclohexadiene ring—offers numerous possibilities for further chemical modifications. This article provides a detailed look at the chemical properties of Tetrahydroxyquinone relevant to synthesis and guides researchers on how to efficiently buy Tetrahydroxyquinone for their laboratory needs.

Tetrahydroxyquinone, with the chemical formula C6H4O6, is a crystalline solid, often appearing as bluish-black crystals. Its molecular structure is key to its reactivity. The presence of multiple hydroxyl groups makes it susceptible to derivatization reactions, such as esterification or etherification. The quinone moiety itself is a powerful oxidizing agent and can participate in various addition and substitution reactions. Understanding these fundamental chemical properties is essential for any chemist planning to use Tetrahydroxyquinone as a starting material or intermediate in a synthetic pathway.

The compound can be synthesized from precursors like glyoxal or myo-inositol, although sourcing it directly from a specialized chemical manufacturer is often more efficient for laboratory use. When considering purchasing Tetrahydroxyquinone, look for suppliers who provide detailed specifications, including purity levels (typically >97%) and CAS number confirmation (319-89-1). This ensures that the material you receive is appropriate for demanding synthetic procedures where precise control over reagents is critical.

Researchers have utilized Tetrahydroxyquinone in various synthetic endeavors. Its redox activity can be harnessed to create novel organic compounds with specific electronic or biological properties. Furthermore, it has been explored for its role in forming metal-organic frameworks (MOFs) and other advanced coordination complexes. For chemists involved in materials science or medicinal chemistry, Tetrahydroxyquinone serves as an excellent starting point for creating complex molecular architectures.

For those needing to purchase Tetrahydroxyquinone, partnering with a reliable Tetrahydroxyquinone supplier in China or other regions can offer significant advantages, including competitive Tetrahydroxyquinone price and consistent availability. Many suppliers offer this compound in various pack sizes, catering to both small-scale research and larger pilot-scale synthesis projects. It is also important to inquire about safe handling and storage procedures, given the compound's chemical nature.

In summary, Tetrahydroxyquinone (CAS 319-89-1) is a chemically rich molecule that offers exciting opportunities for organic synthesis. Its unique structural features and reactivity make it a valuable intermediate for chemists exploring new molecular designs and functional materials. By sourcing from reputable manufacturers and understanding its chemical properties, researchers can effectively integrate Tetrahydroxyquinone into their synthetic strategies.