7-Bromo-2-Methyl-1H-Indene: Properties, Synthesis, Applications, and Safety Insights
Discover the essential details of this key chemical intermediate for your advanced organic synthesis projects.
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7-Bromo-2-Methyl-1H-Indene
7-Bromo-2-Methyl-1H-Indene is a crucial chemical intermediate primarily utilized in the synthesis of various organic compounds. Its structure makes it a valuable building block for creating complex molecules, particularly in the field of catalysis and advanced materials.
- Key chemical intermediate for the synthesis of ansa-zirconocenes containing bis(2-methyl-4-arylindenyl)dimethylsilane ligands, facilitating advanced catalytic applications.
- The 7-bromo-2-methyl-1H-indene uses extend to various organic reactions, offering versatility in molecular construction.
- Understanding the CAS 880652-93-7 chemical properties is vital for its effective application in research and development.
- Sourcing this compound involves exploring diverse chemical intermediate supplier information to ensure quality and availability.
Advantages Offered
Versatile Building Block
Leverage the unique structure of 7-bromo-2-methylindene as a versatile building block in your complex organic synthesis projects.
Catalysis Application
Its role in the ansa-zirconocenes ligand preparation highlights its importance in developing novel catalysts for chemical transformations.
Quality Assurance
Accessing reliable fine chemical compound safety data ensures that your research and development processes are conducted with appropriate precautions.
Key Applications
Organic Synthesis
The compound serves as a key reactant/reagent in the organic synthesis of a broad range of chemical structures, enabling innovation in chemical research.
Ligand Preparation
It is instrumental in the ligand synthesis for advanced catalytic systems, particularly those involving metallocenes.
Research & Development
As a specialized chemical, it is valuable in R&D for exploring new reaction pathways and synthesizing novel materials.
Material Science
Its unique properties may lend themselves to applications in material science, contributing to the development of new functional materials.