Understanding the fundamental chemical profile of a compound is essential for its effective utilization in research and industrial applications. Dibenzofuran-4-Boronic Acid, with CAS number 100124-06-9, is a prime example of a specialized organic intermediate whose properties dictate its broad applicability. This article aims to provide B2B buyers, R&D scientists, and formulation chemists with a comprehensive overview of its chemical characteristics, molecular structure, and key uses, along with guidance on sourcing this valuable material from reputable manufacturers.

Dibenzofuran-4-Boronic Acid (molecular formula C12H9BO3, molecular weight 212.01 g/mol) is characterized by the presence of a dibenzofuran core fused with a boronic acid group at the 4-position. This unique structure imparts specific reactivity and physical properties. Typically appearing as an off-white to beige powder, it exhibits moderate solubility in polar organic solvents and can participate in various chemical transformations. Its most notable reactivity lies in its role as a substrate in palladium-catalyzed cross-coupling reactions, particularly the Suzuki-Miyaura reaction, where it facilitates the formation of new carbon-carbon bonds with aryl and vinyl halides.

The dibenzofuran scaffold itself is a polycyclic aromatic system containing an oxygen heterocycle. This rigid, planar structure is often incorporated into molecules to enhance thermal stability, influence electronic properties, and serve as a core for developing biologically active compounds. For example, in pharmaceutical synthesis, Dibenzofuran-4-Boronic Acid acts as a crucial building block for constructing complex drug candidates. Its ability to be precisely functionalized makes it an attractive intermediate for drug discovery efforts targeting a range of therapeutic areas.

Beyond pharmaceuticals, Dibenzofuran-4-Boronic Acid finds applications in materials science. Its integration into polymers can lead to materials with improved optical or electronic properties, making it relevant for the development of organic electronics, sensors, and advanced functional materials. The demand for high-purity Dibenzofuran-4-Boronic Acid in these fields necessitates reliable suppliers capable of meeting stringent quality specifications. For those looking to buy this compound, identifying manufacturers in China often provides a balance of quality and cost-effectiveness.

In conclusion, Dibenzofuran-4-Boronic Acid is a versatile and valuable chemical intermediate. Its defined chemical structure, reactivity in cross-coupling reactions, and its role in both pharmaceutical synthesis and materials science highlight its importance. For businesses seeking to procure this compound, understanding its chemical profile and partnering with a knowledgeable dibenzofuran-4-boronic acid supplier will ensure successful integration into their research and production workflows.