In the dynamic realm of chemical research and development (R&D), having access to versatile and reliable intermediates is crucial for innovation. 4,6-Dibromoindole (CAS: 99910-50-6) is one such compound that chemists frequently turn to for its unique reactivity and broad applicability. This article delves into the properties and R&D applications of 4,6-Dibromoindole, guiding researchers on how to effectively procure this essential chemical.

The Chemical Foundation of 4,6-Dibromoindole

4,6-Dibromoindole is an organic compound that belongs to the indole family, characterized by the presence of bromine atoms at the 4th and 6th positions of the indole ring. Typically available with a high purity of 97% minimum, this intermediate is essential for reactions where precise molecular construction is required. Its chemical formula is C8H5Br2N, with a molecular weight of 274.940. The bromine substituents make the molecule a prime candidate for various coupling reactions, such as palladium-catalyzed cross-couplings, which are fundamental in building complex organic structures. This reactivity allows researchers to introduce a diverse range of functional groups, tailoring the properties of the resulting molecules for specific applications.

Key R&D Applications and Benefits

The versatility of 4,6-Dibromoindole makes it a cornerstone in several R&D sectors:

  • Medicinal Chemistry: It serves as a critical scaffold for synthesizing novel drug candidates. Researchers utilize it to create indole-based compounds that may exhibit activity against various diseases, including cancer and inflammatory conditions. The ability to modify the indole core through reactions involving the bromine atoms is key to exploring structure-activity relationships.
  • Agrochemical Research: Similar to pharmaceutical applications, it can be used in the development of new pesticides, herbicides, or plant growth regulators.
  • Materials Science: The electronic properties associated with the indole ring, modulated by the bromine atoms, make 4,6-Dibromoindole of interest for creating new organic semiconductors, OLED materials, or specialty polymers.
  • Synthetic Methodology Development: Chemists exploring new catalytic systems or reaction pathways often use well-defined intermediates like 4,6-Dibromoindole to test and optimize their methods.

For researchers looking to buy 4,6-dibromoindole, understanding these diverse applications highlights its importance in driving innovation across multiple scientific disciplines.

Sourcing Considerations for Researchers

When engaging in R&D, it’s essential to source chemicals from reliable suppliers. For 4,6-Dibromoindole, this means looking for companies that can provide:

  • High-Purity Material: Ensuring the 97% minimum purity is critical for reproducible R&D results.
  • Accessible Information: Easy access to technical datasheets, safety information, and certificates of analysis.
  • Flexible Quantities: Suppliers who can provide quantities suitable for laboratory-scale experiments (grams) are ideal.
  • Competitive Pricing: Researching the 4,6-dibromoindole price across different vendors helps in managing R&D budgets effectively.

Identifying a dependable 4,6-dibromoindole supplier, often a specialized chemical manufacturer, is key to maintaining momentum in research projects. Whether you are a seasoned chemist or just starting in your R&D journey, leveraging the potential of this intermediate will depend on having a consistent and quality supply.

In summary, 4,6-Dibromoindole is more than just a chemical intermediate; it is a gateway to innovation in chemical R&D. Its versatile nature and reactivity empower scientists to explore new frontiers in drug discovery, materials science, and beyond. By focusing on quality sourcing, researchers can harness the full potential of this valuable compound.