For synthetic organic chemists, the availability of precisely functionalized building blocks is crucial for designing and executing complex reaction pathways. 2-Bromo-5-fluoro-isonicotinonitrile (CAS: 1256822-16-8) stands out as a particularly valuable intermediate, offering a unique combination of reactive sites that can be exploited for the synthesis of a diverse array of target molecules, especially within the pharmaceutical and agrochemical sectors.

The Chemical Profile of 2-Bromo-5-fluoro-isonicotinonitrile

This pyridine derivative, with the molecular formula C6H2BrFN2, presents chemists with several points of reactivity. The bromine atom is susceptible to nucleophilic substitution or can participate in metal-catalyzed cross-coupling reactions (e.g., Suzuki, Sonogashira, Buchwald-Hartwig couplings), allowing for the introduction of various carbon-based or heteroatom-based substituents. The fluorine atom, due to its high electronegativity, can influence the electronic properties of the pyridine ring, affecting its reactivity and the properties of the final product. The nitrile group (-CN) is also a versatile functional handle, which can be hydrolyzed to a carboxylic acid, reduced to an amine, or undergo addition reactions, further expanding synthetic possibilities.

Applications in Pharmaceutical Synthesis

The pharmaceutical industry constantly seeks novel molecular scaffolds for drug discovery. Fluorinated pyridine motifs are frequently incorporated into drug candidates due to the beneficial effects of fluorine on metabolic stability, lipophilicity, and binding affinity. 2-Bromo-5-fluoro-isonicotinonitrile serves as an excellent starting material for constructing such fluorinated pyridine-containing pharmaceuticals. Researchers can buy this compound from reliable manufacturers to synthesize potential drug candidates targeting a wide range of therapeutic areas. For chemists looking to purchase this intermediate for their research, identifying suppliers with consistent quality and availability is key.

Expanding its Utility in Fine Chemicals and Beyond

Beyond pharmaceuticals, this intermediate finds applications in the broader field of fine chemicals. Its incorporation into materials science, for instance, might lead to new electronic or optoelectronic properties. The ability to selectively functionalize the bromine atom while retaining the nitrile and fluorine allows for precise control over the resulting molecular architecture. Chemists often search for CAS numbers like 1256822-16-8 to find specific, high-purity compounds from specialized suppliers. Companies offering this product often highlight their expertise in handling and synthesizing such heterocyclic compounds.

Sourcing for Your Synthesis Needs

When embarking on a new synthesis project, chemists need reliable access to high-quality reagents. Procuring 2-Bromo-5-fluoro-isonicotinonitrile from reputable manufacturers and suppliers ensures that your reactions proceed as expected. Consider looking for suppliers who can provide detailed technical data, including spectroscopic information and purity analysis, to support your experimental design. Whether you need small quantities for initial screening or larger amounts for scale-up, identifying a dependable source is essential for efficient and successful organic synthesis.