Understanding the fundamental chemical identity of a compound is crucial for its effective utilization in research and industry. 3-Bromo-5-methylpicolinonitrile, with its precise chemical structure and properties, serves as an excellent example of a vital chemical intermediate. This article explores its core characteristics, including its physical state, molecular composition, and the synthetic pathways employed for its production, providing insights into why it is a favored compound in various chemical applications.

The compound’s molecular formula is C7H5BrN2, yielding a molecular weight of 197.03200. It is typically described as a white solid chemical intermediate, indicating its stability under standard atmospheric conditions and its ease of handling. This physical characteristic is highly advantageous for laboratory work and industrial-scale production, minimizing complications associated with liquid or gaseous reagents. Its purity, often specified as ≥98.0%, is a testament to the sophisticated synthesis and purification techniques employed by its manufacturers.

The synthesis of 3-Bromo-5-methylpicolinonitrile often involves multi-step processes. One common route is the bromination of a suitable pyridine precursor, followed by functional group modifications to introduce the nitrile group. Another approach might involve starting with a pre-functionalized pyridine ring and performing selective bromination. Each method is optimized to achieve high regioselectivity, ensuring that the bromine atom is precisely located at the 3-position of the pyridine ring. This attention to detail in its production is critical for its efficacy as a pyridine derivative in subsequent reactions.

As a fine chemical manufacturing product, the availability of high-purity 3-Bromo-5-methylpicolinonitrile is essential for the success of downstream applications. Researchers and chemical engineers rely on consistent quality to ensure reproducible results and the efficiency of their synthetic routes. Ningbo Inno Pharmchem Co., Ltd. is a prominent supplier that ensures adherence to these high standards, providing scientists with the reliable materials needed to advance their work in areas ranging from drug discovery to material science. The compound's versatility as a building block makes it a consistently sought-after material in the chemical synthesis landscape.