4-Iodoanisole (CAS 696-62-8): A Versatile Aromatic Ether for Advanced Chemical Synthesis
Explore the crucial role of 4-Iodoanisole in pharmaceutical development and fine chemical manufacturing.
Get a Quote & SampleProduct Core Value
4-Iodoanisole
4-Iodoanisole, identified by CAS 696-62-8, stands as a critical aromatic ether intermediate, valued for its reactive iodo substituent and methoxy group. Its unique structure facilitates advanced chemical transformations, making it indispensable in various high-tech industries. The compound's efficacy in cross-coupling reactions, such as Ullmann, Sonogashira, and Heck, underscores its importance as a versatile building block for complex organic molecules.
- Unlock complex molecular structures with 4-iodoanisole synthesis, a key step in creating novel pharmaceuticals.
- Discover the broad spectrum of 4-iodoanisole applications in the development of new agrochemicals.
- As a vital component in pharmaceutical intermediates 4-iodoanisole, it accelerates drug discovery and manufacturing processes.
- Leverage 4-Iodoanisole as one of your primary organic synthesis building blocks to enhance reaction efficiency.
Advantages Provided by the Product
Enhanced Reactivity
The presence of both an iodo substituent and a methoxy group on the benzene ring of 4-Iodoanisole provides excellent leaving group properties, enabling efficient participation in numerous organic reactions, contributing to its role in advanced chemical synthesis.
Versatile Applications
Its utility extends across pharmaceuticals, agrochemicals, and organic electronics, solidifying its position as a crucial component in the chemical industry aromatic ether sector and beyond.
Directed Synthesis
The electron-rich methoxy group in 4-Iodoanisole strategically directs subsequent functionalization to the ortho/para positions, simplifying complex synthetic pathways and improving yields in pharmaceutical intermediates 4-iodoanisole production.
Key Applications
Pharmaceutical Synthesis
4-Iodoanisole is instrumental in the development of drug intermediates for antimicrobials and CNS agents, contributing significantly to pharmaceutical intermediate synthesis.
Agrochemical Development
It serves as a building block in the creation of effective pesticides and herbicides, enhancing crop yields and supporting the agrochemical sector through its 4-iodoanisole applications.
Organic Electronics
The compound is utilized in the creation of photoactive materials and liquid crystals, showcasing its value in emerging fields of material science and contributing to advanced material precursors.
Fine Chemical Manufacturing
As a versatile intermediate, 4-Iodoanisole is essential for producing a range of specialty chemicals, emphasizing its importance in fine chemical sourcing and manufacturing.