Understanding the fundamental properties of chemical intermediates is crucial for their effective utilization in synthesis. Styrylboronic Acid (CAS 6783-05-7) is a compound of significant scientific interest due to its chemical structure and reactivity, making it a valuable asset in modern organic chemistry.

The molecular formula C8H9BO2 and a molecular weight of 147.967 g/mol define Styrylboronic Acid. It typically presents as a solid, with a melting point range of 146-156 °C, indicating a stable compound under standard conditions. Its primary application is as a chemical intermediate, especially favored in reactions that form carbon-carbon bonds. This makes it indispensable for synthesizing complex organic molecules, including those found in pharmaceuticals and specialty chemicals. As a leading chemical supplier, we ensure that the Styrylboronic Acid we offer meets high purity standards, typically 97% minimum, which is critical for successful R&D endeavors.

The utility of Styrylboronic Acid is most prominently showcased in palladium-catalyzed cross-coupling reactions, such as the Suzuki-Miyaura coupling. This reaction allows for the efficient linkage of aryl or vinyl groups to boronic acids, creating more complex structures. For scientists and procurement specialists looking to buy Styrylboronic Acid, understanding these applications helps in appreciating its value and the importance of consistent quality. We, as a dedicated manufacturer, are committed to providing a reliable supply of this key intermediate from our facilities in China.

Researchers often seek materials that can be readily modified to create diverse libraries of compounds for screening. Styrylboronic Acid serves this purpose effectively, enabling the exploration of new chemical spaces. Its availability at a reasonable price from reliable sources is therefore a significant advantage for research institutions and chemical companies. We are focused on providing accessible, high-quality chemical building blocks to support scientific advancement and industrial innovation.