4,7-Dibromo-1H-indole: Your Key Intermediate for Chemical Innovation
Unlock advanced synthesis with a versatile dibrominated indole, crucial for pharmaceuticals and organic chemistry.
Get a Quote & SampleProduct Core Value
4,7-Dibromo-1H-indole
As a specialized chemical intermediate, 4,7-Dibromo-1H-indole (CAS: 126811-31-2) provides a unique dibrominated indole scaffold essential for developing complex organic molecules and novel pharmaceutical agents. Its specific bromine placement at the 4 and 7 positions dictates its distinct reactivity and utility in advanced chemical synthesis.
- Discover the precise chemical intermediate properties of 4,7-Dibromo-1H-indole for your synthesis needs.
- Explore the wide range of 4,7-dibromo-1h-indole applications, from pharmaceutical intermediates to complex organic synthesis.
- Learn about the critical role of this dibrominated indole in advancing medicinal chemistry research.
- Secure a reliable supplier for CAS 126811-31-2 to ensure consistent quality for your projects.
Advantages Offered
Synthesis Versatility
Leverage the inherent reactivity of 4,7-dibromo-1h-indole for diverse chemical transformations, making it an indispensable tool for organic synthesis.
Pharmaceutical Potential
Utilize this compound as a key building block in the 4,7-dibromo-1h-indole applications for drug discovery and development.
Quality Assurance
Source high-purity 4,7-dibromo-1h-indole from trusted providers to guarantee the success of your research and manufacturing processes.
Key Applications
Chemical Intermediate
Serves as a fundamental building block for synthesizing more complex organic molecules, facilitating innovation in chemical research.
Pharmaceutical Development
Plays a crucial role in the synthesis of potential drug candidates, contributing to the advancement of medicinal chemistry and treatment development.
Organic Synthesis
Enables a wide array of reactions due to its unique structural features, supporting diverse synthetic pathways in academic and industrial settings.
Material Science Research
Its specific electronic properties make it a candidate for exploration in advanced materials, including organic electronics and specialty dyes.