Organic synthesis is the bedrock of many industries, from pharmaceuticals to materials science. At its core, it relies on versatile building blocks that allow chemists to construct complex molecules with precision. 4-Bromo-3-fluorophenylacetic Acid (CAS: 942282-40-8) is one such essential intermediate, valued for its unique structural features and reactivity.

Chemical Profile and Properties

This compound, known for its off-white solid appearance, boasts a molecular formula of C8H6BrFO2 and a molecular weight of approximately 233.03 g/mol. The presence of bromine and fluorine atoms on the phenyl ring, coupled with the acetic acid moiety, imbues it with specific chemical properties highly sought after in synthetic chemistry. These attributes enable it to participate in a wide array of reactions, including cross-coupling reactions, esterifications, and amide formations, making it an exceptionally flexible reagent for creating diverse organic structures. For researchers looking to buy this compound, understanding these properties is key to optimizing its use.

Applications as a Synthetic Building Block

The primary utility of 4-Bromo-3-fluorophenylacetic Acid lies in its role as a synthon. In pharmaceutical development, it's instrumental in constructing novel drug candidates, where precise molecular architecture is critical for biological activity. Beyond pharmaceuticals, this intermediate finds applications in the synthesis of advanced materials, specialty chemicals, and research compounds. Its halogen substituents can serve as handles for further derivatization, allowing chemists to introduce other functional groups or build more complex ring systems.

Procurement Strategies: Manufacturer to Researcher

For organizations requiring 4-Bromo-3-fluorophenylacetic Acid, sourcing options are varied. Engaging directly with a manufacturer, particularly those based in China, often presents the most cost-effective solution for bulk orders. These suppliers typically offer competitive price points and can guarantee consistent quality. Researchers and smaller laboratories may opt to purchase from distributors who provide smaller quantities. Regardless of the scale, it's advisable to request a quote and review product specifications to ensure they meet the required purity and quality standards for your specific synthetic pathway. A reliable purchase from a reputable supplier is the first step towards successful organic synthesis.

The Future of Specialized Intermediates

As the demand for bespoke molecules and advanced materials continues to grow, the importance of specialized intermediates like 4-Bromo-3-fluorophenylacetic Acid will only increase. Continuous innovation in synthetic methodologies further expands the potential applications of such compounds. For chemists and R&D professionals, staying informed about the availability and properties of these key building blocks is crucial for pushing the boundaries of chemical innovation.

In conclusion, 4-Bromo-3-fluorophenylacetic Acid is a powerful tool in the organic chemist's arsenal. Its versatile nature as a building block, coupled with the availability from reliable manufacturers and suppliers, makes it a cornerstone for advancements in various scientific disciplines.