1-(4'-Iodophenyl)butane: A Versatile Intermediate for Pharmaceuticals and Advanced Materials
Unlock groundbreaking research with this essential chemical building block.
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1-(4'-Iodophenyl)butane
As a crucial organic compound, 1-(4'-Iodophenyl)butane (CAS: 20651-67-6) serves as a vital active pharmaceutical intermediate. Its unique chemical structure facilitates complex synthesis pathways, making it indispensable in the development of new therapeutic agents.
- Explore the utility of 1-(4'-Iodophenyl)butane in pharmaceutical intermediate synthesis, enabling the creation of novel drug candidates.
- Discover its role in the synthesis and characterization of photoelectronic polymers containing triphenylamine moiety, pushing the boundaries of material science.
- Leverage its capabilities in palladium-catalyzed conversion of aryl and vinyl triflates to bromides and chlorides, showcasing its versatility in advanced organic reactions.
- Understand the comprehensive chemical properties of 1-butyl-4-iodobenzene, including its physical state, solubility, and stability for precise application.
Key Advantages
High Purity for Critical Applications
Achieve reproducible results with a compound known for its high purity, essential for sensitive pharmaceutical and electronic material applications, reinforcing the value of 1-(4'-Iodophenyl)butane in critical synthesis.
Versatility in Chemical Synthesis
Benefit from the compound's adaptability across various chemical transformations, including its use as a building block in complex organic synthesis and catalytic processes, highlighting its utility as an organic synthesis intermediate 20651-67-6.
Facilitates Advanced Material Development
Contribute to advancements in material science by utilizing this compound in the creation of next-generation photoelectronic polymers, demonstrating the potential of iodine compounds in innovative applications.
Key Applications
Pharmaceutical Synthesis
As an active pharmaceutical intermediate, it is instrumental in the development of new drugs and therapies, supporting vital research in medicinal chemistry.
Photoelectronic Polymers
Essential for synthesizing advanced materials with specific electronic and optical properties, crucial for next-generation electronic devices.
Catalytic Reactions
Plays a significant role in palladium-catalyzed reactions, enabling efficient conversion of triflates, a key step in many complex synthetic routes.
Organic Chemistry Research
A fundamental building block for researchers exploring new molecular structures and reaction mechanisms in the broad field of organic chemistry.