1,3-Dibromoisoquinoline: Your Key to Advanced Organic Synthesis
Discover the potential of CAS 53987-60-3, a vital compound for groundbreaking research and development.
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1,3-Dibromoisoquinoline
1,3-Dibromoisoquinoline is a critical organic compound with CAS number 53987-60-3, widely utilized as a building block in complex organic synthesis. Its chemical structure and reactivity make it an invaluable tool for researchers in pharmaceuticals and fine chemicals.
- Explore the synthesis of 1,3-dibromoisoquinoline to understand its production pathway and optimize its yield.
- Source high-purity 1,3-dibromoisoquinoline from reliable suppliers for your critical research needs.
- Investigate the unique chemical properties of 1,3-dibromoisoquinoline for novel applications in material science.
- Understand the role of this dibromoisoquinoline intermediate in the development of new pharmaceutical agents.
Key Advantages
Versatile Building Block
As a key reagent in organic synthesis, 1,3-dibromoisoquinoline enables the creation of diverse molecular structures crucial for drug discovery.
High Purity Standards
Available at high purity levels, this compound ensures reliable and reproducible results in your research, supporting accurate analysis.
Facilitates Complex Reactions
The presence of bromine atoms on the isoquinoline core facilitates various coupling reactions and functionalizations, advancing your research goals.
Key Applications
Pharmaceutical Intermediate Development
Leverage 1,3-dibromoisoquinoline as a foundational component in synthesizing potential drug candidates, contributing to the pharmaceutical intermediate market.
Advanced Organic Synthesis
Utilize this compound for complex synthetic routes, where its unique structure is essential for creating novel organic molecules.
Research & Development
Procure 1,3-dibromoisoquinoline for academic and industrial R&D, fueling innovation in chemistry and related fields.
Fine Chemical Manufacturing
Integrate 1,3-dibromoisoquinoline into your manufacturing processes for specialized fine chemicals requiring precise molecular architectures.