The utility of any chemical intermediate is intrinsically linked to its synthesis pathway and intrinsic properties. For 2,3-Dibromo-5-methylpyridine, a compound vital for various industrial applications, understanding these aspects is crucial for chemists and manufacturers alike. This section explores its synthesis and key physical characteristics, providing a foundation for its effective use.

The synthesis of 2,3-Dibromo-5-methylpyridine typically involves bromination reactions of precursor pyridine derivatives. While specific proprietary methods exist, general routes often start with 2-amino-3-bromo-5-methylpyridine, reacting it with bromine in the presence of acids and then with sodium nitrite, followed by treatment with a base. This multi-step process aims to achieve high yields and purity, essential for its role as an organic synthesis intermediate.

Key physical properties that define 2,3-Dibromo-5-methylpyridine include its molecular formula C6H5Br2N and a molecular weight of approximately 250.92 g/mol. It typically appears as an off-white to yellow solid, with a melting point range of 53-57 °C. These characteristics are important for handling, storage, and its behavior in various reaction conditions. Manufacturers like Ningbo Inno Pharmchem Co.,Ltd. emphasize these quality parameters when supplying the product.

For those looking to buy 2,3-dibromo-5-methylpyridine, understanding these properties ensures that the material procured will meet the specific requirements of their synthesis processes. Whether it's for pharmaceutical development or as an agrochemical synthesis building block, detailed knowledge of the intermediate's characteristics is indispensable.