3-Bromo-2-fluoroaniline: A Key Intermediate in Modern Chemistry
Explore the vital role of 3-Bromo-2-fluoroaniline in organic synthesis and drug development.
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3-Bromo-2-fluoroaniline
3-Bromo-2-fluoroaniline (CAS: 58534-95-5) is a critical organic synthesis intermediate, prized for its unique chemical structure that facilitates complex molecular construction. Its combination of bromine and fluorine atoms on an aniline ring provides reactive sites for a wide array of chemical transformations, making it indispensable in advanced organic synthesis and pharmaceutical research.
- Leverage the unique reactivity of bromine and fluorine for complex molecular construction, a key aspect of organic synthesis intermediates.
- Utilize this compound as a starting material for the synthesis of KRASG12C inhibitors, contributing to the development of novel anticancer drugs.
- Incorporate 3-bromo-2-fluoroaniline into the preparation of RIG-I agonists, crucial for treating cell proliferation disorders.
- Benefit from its high purity (≥99.0%) and well-defined properties, essential for reliable outcomes in drug research and development.
Key Advantages
Versatile Reactivity
The presence of both bromine and fluorine substituents offers a nuanced reactivity profile, enabling regioselective functionalization and diverse synthetic pathways for 3-bromo-2-fluoroaniline uses.
Drug Discovery Prowess
As a precursor for anticancer drugs and other therapeutics, it plays a significant role in accelerating drug research and development, aligning with the needs for efficient pharmaceutical intermediates.
Synthesis Efficiency
The compound's established synthesis routes and reliable properties contribute to efficient production processes, making it a preferred choice for chemical synthesis intermediates.
Key Applications
Organic Synthesis
Serves as a fundamental building block for creating complex organic molecules and novel chemical entities, vital for ongoing research in organic synthesis intermediates.
Pharmaceutical Research
Crucial for the development of new therapeutic agents, including anticancer drugs and treatments for cell proliferation disorders, underscoring its value as pharmaceutical intermediates.
Medicinal Chemistry
Enables the exploration of new pharmacophores and drug candidates by providing a versatile scaffold for molecular modification.
Chemical Intermediate
Its broad utility as a chemical intermediate supports a wide range of research and industrial applications requiring precise chemical structures.