For any chemist or material scientist engaged in complex synthesis projects, a thorough understanding of the properties of their starting materials is non-negotiable. 4-Bromo-6-phenyldibenzofuran, bearing the CAS number 1010068-84-4, is a compound that warrants detailed attention. Its molecular formula is C18H11BrO, and it possesses a molecular weight of 323.18 g/mol. These fundamental characteristics, along with its purity, dictate its suitability for various chemical transformations.

The compound's structure features a dibenzofuran core, a fused tricyclic system, substituted with a phenyl group at the 6-position and a bromine atom at the 4-position. The bromine atom is a key functional handle, making 4-Bromo-6-phenyldibenzofuran a valuable building block in organic synthesis. This functionality allows for participation in a wide array of metal-catalyzed cross-coupling reactions, such as Suzuki-Miyaura, Stille, and Buchwald-Hartwig amination reactions. These reactions are fundamental for constructing larger, more complex organic architectures, including those found in pharmaceuticals and advanced materials.

Researchers looking to buy this compound will often specify a minimum purity level, typically greater than 98%, to ensure reliable reaction outcomes and minimize side product formation. The stability of the compound under standard storage conditions (room temperature) is also a practical consideration for laboratories. Understanding these properties allows chemists to effectively plan their synthetic strategies and select the appropriate reagents and reaction conditions.

For procurement professionals and researchers, identifying dependable manufacturers and suppliers is crucial. China-based chemical companies have become a primary source for such specialized intermediates. By partnering with these suppliers, one can often achieve cost efficiencies while gaining access to high-quality materials. When evaluating suppliers, it's advisable to inquire about their quality control processes, batch-to-batch consistency, and their capacity to provide technical support. This diligent approach ensures that the 4-Bromo-6-phenyldibenzofuran purchased meets the stringent demands of advanced chemical synthesis.