3-Chloro-4-fluoroiodobenzene: A Versatile Building Block for Advanced Chemical Synthesis
Unlock new possibilities in organic synthesis and pharmaceutical development with this key halogenated aromatic compound.
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3-Chloro-4-fluoroiodobenzene
This tri-halogenated aromatic compound, identified by CAS 156150-67-3, is a highly versatile intermediate essential for sophisticated organic synthesis. Its strategic placement of iodine, chlorine, and fluorine atoms on the benzene ring facilitates a range of chemical transformations, opening pathways to novel molecular structures.
- Leverage its unique reactivity for advanced synthesis, enabling sequential cross-coupling reactions to build complex molecules.
- Utilize this compound as a critical component in pharmaceutical intermediate synthesis, supporting the development of new drug candidates.
- Explore its potential as a precursor for PET radiotracer synthesis, crucial for advanced medical imaging techniques.
- Employ it as a key intermediate in the production of liquid crystal materials, impacting display technology.
Advantages You Gain
Enhanced Synthetic Versatility
The differentiated halogen sites on 3-Chloro-4-fluoroiodobenzene allow for precisely controlled and sequential chemical reactions, making it a powerful tool for creating complex organic molecules with high purity.
Pharmaceutical Innovation
As a valuable pharmaceutical building block, this compound contributes to the design of novel antimicrobial and antiviral scaffolds, driving innovation in drug discovery and development.
Material Science Advancement
Its utility extends to the synthesis of liquid crystal intermediates, contributing to the development of advanced materials with specific electronic properties for various technological applications.
Key Applications
Organic Synthesis
A prime example of its use involves leveraging cross-coupling reactions with iodoarenes to construct intricate molecular frameworks.
Pharmaceutical Intermediates
Its role as a building block is vital for creating diverse pharmaceutical building blocks and scaffolds found in many therapeutic agents.
Radiotracer Precursors
The compound is instrumental in the preparation of PET radiotracer precursors synthesis, essential for diagnostic imaging.
Liquid Crystal Materials
It serves as an important intermediate in the field of material science, particularly in the development of novel liquid crystal intermediates manufacturing.