The field of organic synthesis is constantly seeking novel building blocks and intermediates that offer enhanced reactivity and versatility. Among these critical components, 4,6-Dibromoindole (CAS: 99910-50-6) stands out as a particularly useful compound for researchers and industrial chemists alike. Its unique structure, featuring an indole nucleus with bromine atoms at strategic positions, allows for a wide range of chemical modifications, making it an indispensable tool in the creation of complex organic molecules.

The Chemical Profile of 4,6-Dibromoindole

As a chemical intermediate, 4,6-Dibromoindole is valued for its defined chemical properties. Typically supplied with a purity of 97% minimum, this compound ensures reliable performance in synthesis. Key physical characteristics, such as its reported boiling point of approximately 368.5 °C at standard pressure, and a density around 2.0 g/cm³, provide essential data for chemists planning reactions and handling procedures. The presence of bromine atoms on the indole ring makes it highly susceptible to various cross-coupling reactions, including palladium-catalyzed transformations, which are foundational in modern organic synthesis. This allows chemists to efficiently introduce diverse functional groups, paving the way for novel compound libraries and tailored molecular designs.

Applications in Modern Organic Synthesis

The primary application for 4,6-Dibromoindole lies in its role as a versatile building block. It is frequently employed in the synthesis of pharmaceuticals, agrochemicals, and advanced materials. Researchers often utilize it in the development of novel drug candidates, where the indole core is a common pharmacophore. By engaging in reactions like Suzuki-Miyaura coupling or Buchwald-Hartwig amination, chemists can create complex indole derivatives with specific biological activities. For anyone looking to buy 4,6-dibromoindole, understanding these synthetic pathways can unlock new research avenues. The compound is also of interest in materials science, potentially contributing to the development of organic electronic materials or specialized dyes, owing to the electronic properties imparted by the indole ring and bromine substituents.

Sourcing Strategies for Industrial Chemists

For industrial chemists and procurement specialists, sourcing high-quality 4,6-Dibromoindole is a critical step in ensuring project success. It is imperative to partner with a reliable 4,6-dibromoindole supplier that can guarantee consistent quality and timely delivery. When evaluating suppliers, it is important to look for manufacturers that offer competitive 4,6-dibromoindole price points and can provide thorough technical support. Requesting a sample is a prudent step to verify the material’s suitability for specific applications. Engaging with a reputable manufacturer in China that specializes in chemical intermediates can provide access to both quality products and potentially cost-effective solutions for bulk requirements.

In summary, 4,6-Dibromoindole is a powerful tool for organic chemists seeking to advance their synthetic projects. Its reactivity, purity, and versatility make it an indispensable intermediate. By diligently selecting suppliers and understanding its application scope, chemists can effectively leverage this compound to achieve groundbreaking results in their research and development endeavors.