7-Bromo-2-methyl-1H-indene: A Key Intermediate in Chemical Innovation
Explore the synthesis, diverse applications, and significant role of this brominated indene in advancing organic chemistry and drug discovery.
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7-Bromo-2-methyl-1H-indene
This compound is a crucial building block in organic synthesis and medicinal chemistry, valued for its unique structural features and reactivity. It serves as a precursor for various complex molecules, including potential therapeutic agents and advanced materials.
- Leverage 7-Bromo-2-methyl-1H-indene for advanced organic synthesis, enabling the creation of novel molecular architectures.
- Utilize this compound in medicinal chemistry to synthesize potential drug candidates targeting various diseases.
- Explore its role in ansa-zirconocenes synthesis for applications in catalysis and material science.
- The compound's reactivity profile makes it an excellent starting material for generating brominated indene derivatives with tailored properties.
Advantages Provided by the Product
Versatile Reactivity
The presence of a bromine atom and the indene core offers diverse reaction pathways, making it a versatile reagent for numerous chemical transformations.
Drug Discovery Potential
As a key intermediate, it facilitates the synthesis of compounds with potential therapeutic applications, particularly in medicinal chemistry and cancer research.
Catalysis and Materials Science
Its use in the synthesis of ansa-zirconocenes highlights its importance in developing advanced catalysts and novel materials.
Key Applications
Organic Synthesis
Serves as a vital reagent for creating complex organic molecules and exploring novel reaction mechanisms, contributing to the field of organic synthesis.
Medicinal Chemistry
Acts as a precursor for synthesizing compounds with potential biological activity, including retinoic acid receptor agonists, crucial for drug discovery.
Catalysis
Essential in the preparation of ansa-zirconocenes, which are utilized as high-performance catalysts in various chemical processes.
Materials Science
Its derivatives are explored for developing new materials with unique properties, expanding the scope of materials science research.