5-Bromo-7-methyl-1H-indazole: Your Key Intermediate for Pharmaceutical Innovation
Unlock novel therapeutic agents with this high-purity, versatile indazole derivative.
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5-Bromo-7-methyl-1H-indazole
This compound stands out as a crucial building block in the synthesis of more complex pharmaceutical compounds. Its chemical structure, characterized by a bromine atom at the 5-position and a methyl group at the 7-position of the indazole ring, provides strategic points for chemical modification, making it invaluable for indazole derivative drug discovery.
- Leverage its potential in oncology and neurology treatments: Researchers utilize this intermediate for developing novel therapeutic agents targeting specific biological pathways.
- Facilitate systematic structural modification: The bromine atom acts as a versatile handle for introducing various functional groups via cross-coupling reactions.
- Ensure high purity for reliable research outcomes: With a purity of 98% min, this compound is essential for accurate and reproducible scientific investigations.
- Streamline your R&D process: Its stability and compatibility with diverse reaction conditions make it an ideal candidate for advancing your medicinal chemistry building blocks efforts.
Key Advantages
Accelerated Drug Discovery
Utilize this compound to expedite the process of 5-bromo-7-methyl-1h-indazole synthesis and the development of new drug candidates.
Chemical Versatility
The strategic placement of bromine and methyl groups allows for extensive derivatization, supporting a wide range of organic synthesis projects.
High Efficacy Potential
Its role as a precursor enables the creation of molecules with enhanced efficacy and selectivity for targeted therapies.
Key Applications
Pharmaceutical Development
Serves as a crucial intermediate in the synthesis of pharmaceuticals, particularly in developing anti-cancer drugs, aiding cancer research.
Biological Research
Used to study the mechanisms of action of indazole derivatives, contributing to advancements in understanding disease processes.
Agrochemicals
Explored for potential use in developing agrochemicals to enhance crop resistance, supporting sustainable agriculture practices.
Material Science
Investigated for properties in creating novel materials, such as polymers and coatings with unique thermal and electrical characteristics.