4-Bromoisopropylbenzene: A Key Intermediate for Your Synthesis Needs
Explore the properties and applications of CAS 586-61-8, a vital component in advanced chemical manufacturing.
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4-Bromoisopropylbenzene
4-Bromoisopropylbenzene (CAS 586-61-8) is a crucial organic compound widely utilized as an intermediate in the synthesis of pharmaceuticals and other fine chemicals. Its specific chemical structure makes it an invaluable building block for complex molecular architectures.
- As a key intermediate for pharmaceutical synthesis, its role is vital in drug discovery and development.
- Explore the advantages of sourcing this organic building block from reliable chemical intermediate suppliers.
- Discover the versatility of aryl halide compounds like 4-Bromoisopropylbenzene in advanced chemical processes.
- Learn about the quality standards and packaging options available for buy CAS 586-61-8.
Advantages Provided by the Product
Enhanced Synthesis Pathways
Leverage 4-Bromoisopropylbenzene as a critical intermediate for pharmaceutical synthesis, enabling more efficient and targeted molecular construction.
Reliable Sourcing Options
Benefit from the availability of this organic building block through dedicated chemical intermediate suppliers, ensuring consistent supply for your projects.
Versatile Chemical Reactivity
Utilize the inherent reactivity of this aryl halide compound in a wide array of chemical reactions, paving the way for novel material development.
Key Applications
Pharmaceutical Manufacturing
Serving as a fundamental intermediate for pharmaceutical synthesis, it is integral to the creation of various active pharmaceutical ingredients (APIs).
Fine Chemical Synthesis
This compound is a valuable organic building block, employed in the creation of diverse fine chemicals with specialized applications.
Research and Development
Researchers rely on the consistent quality of CAS 586-61-8 for laboratory-scale synthesis and exploration of new chemical entities.
Specialty Chemical Production
Its utility extends to the production of specialty chemicals where specific aromatic halide functionalities are required.