The landscape of chemical synthesis is continually evolving, driven by the pursuit of more efficient, selective, and sustainable methodologies. Within this dynamic field, certain chemical intermediates emerge as indispensable tools for researchers pushing the boundaries of innovation. Pyridazin-4-ylboronic Acid, identified by its CAS number 1083326-29-7, is one such compound that facilitates cutting-edge chemical synthesis across various disciplines, including pharmaceutical development and materials science. As a dedicated chemical supplier and manufacturer, we are at the forefront of providing this critical building block.

Pyridazin-4-ylboronic Acid, a heterocyclic organic compound, boasts a molecular formula of C4H5BN2O2 and a molecular weight of 123.91 g/mol. Its structure, featuring a pyridazine ring functionalized with a boronic acid group, makes it an ideal substrate for a plethora of synthetic transformations. The boronic acid moiety is particularly well-known for its participation in palladium-catalyzed cross-coupling reactions, most notably the Suzuki-Miyaura coupling. This reaction is fundamental to modern organic synthesis, allowing for the precise construction of complex carbon-carbon bonds. Researchers often turn to this reaction to introduce the pyridazine heterocycle into target molecules, which can impart desirable pharmacological or material properties.

In the pharmaceutical industry, Pyridazin-4-ylboronic Acid serves as a vital intermediate in the synthesis of novel drug candidates. The pyridazine ring system is a common feature in many biologically active molecules, and its incorporation can lead to compounds with a wide range of therapeutic activities. Medicinal chemists leverage this intermediate to explore new chemical entities for potential treatments in areas such as oncology, infectious diseases, and neuroscience. For procurement specialists, securing a consistent supply of high-purity Pyridazin-4-ylboronic Acid (typically 97% minimum purity) is essential to ensure the reproducibility and success of their synthesis campaigns. Companies looking to buy this compound should prioritize manufacturers with robust quality control systems.

Beyond pharmaceuticals, the unique structural features of Pyridazin-4-ylboronic Acid also make it a valuable component in materials science research. Its potential applications range from the synthesis of organic semiconductors and optoelectronic materials to the development of porous frameworks like Metal-Organic Frameworks (MOFs) and Covalent-Organic Frameworks (COFs). The ability to precisely control molecular architecture through established coupling reactions makes boronic acids like this pyridazine derivative indispensable for creating materials with tailored electronic, optical, or porous properties. For academic researchers and industrial material scientists, understanding the commercial availability and pricing from reliable manufacturers is key to advancing their projects.

As a manufacturer committed to supporting scientific advancement, we offer Pyridazin-4-ylboronic Acid with a focus on quality, reliability, and accessibility. We understand the critical role this intermediate plays in cutting-edge research. Whether you are looking to purchase small quantities for initial research or require bulk supply for scale-up, our team is equipped to meet your needs. We encourage you to inquire for pricing and detailed specifications to integrate this powerful synthetic tool into your next groundbreaking project.