High-Purity 2-Fluoro-4-iodoaniline (CAS 29632-74-4): A Key Intermediate for Pharmaceutical and Material Science Innovations
Discover the critical role of 2-Fluoro-4-iodoaniline in advancing pharmaceutical development and material science. Explore its applications and benefits as a premium chemical intermediate.
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2-Fluoro-4-iodoaniline
As a trusted supplier in China, we provide high-quality 2-Fluoro-4-iodoaniline (CAS 29632-74-4), a vital organic intermediate. Its unique combination of fluorine and iodine atoms makes it an indispensable building block for complex molecular structures in pharmaceutical synthesis and advanced material development. We are a dedicated manufacturer in China committed to delivering products that meet rigorous purity standards, ensuring your research and production processes are supported by reliable chemical components.
- Leverage this compound as a key building block in pharmaceutical synthesis, particularly for developing novel anti-cancer drugs.
- Utilize its unique reactivity in organic synthesis to create complex molecular architectures for various applications.
- Explore its potential in material science for the production of specialized polymers and functionalized materials.
- Benefit from the high purity of our 2-Fluoro-4-iodoaniline, a crucial factor for successful drug discovery and development.
Advantages Provided by the Product
Enhanced Reactivity
The presence of both fluorine and iodine substituents on the aniline ring significantly enhances its reactivity, enabling efficient participation in nucleophilic substitution reactions and making it a versatile tool for complex organic synthesis.
Pharmaceutical Innovation
As a crucial component in pharmaceutical intermediates China, this compound is instrumental in the synthesis of various therapeutic agents, including promising anti-cancer drugs, thereby contributing to advancements in medicinal chemistry.
Material Science Advancement
Its unique chemical properties make it valuable in material science for creating specialized polymers and advanced materials with tailored electronic or optical characteristics, enhancing performance in applications like sensors and electronics.
Key Applications
Pharmaceutical Development
This compound serves as a critical intermediate in the synthesis of numerous pharmaceutical agents, aiding in the development of new drugs, especially in the realm of anti-cancer therapies.
Material Science
It is employed in the creation of specialized polymers and advanced materials that require specific electronic or optical properties, boosting performance in areas such as sensor technology.
Organic Synthesis
Researchers extensively use its unique reactivity as a building block in organic synthesis to construct complex molecular structures, vital for various chemical industries.
Bioconjugation
The compound can be utilized in bioconjugation processes, facilitating the attachment of biomolecules to surfaces or other molecules, which is essential for advancements in diagnostics and therapeutic applications.