4-Bromotoluene: Your Key Organic Synthesis Intermediate
Discover the versatile applications and properties of 4-Bromotoluene, a crucial building block for chemical synthesis.
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4-Bromotoluene
4-Bromotoluene (CAS 106-38-7) is a vital compound in organic chemistry, serving as a key intermediate for synthesizing various complex molecules. Its specific structure and reactivity make it indispensable in advanced chemical processes, particularly in the creation of ketones and in facilitating Heck reactions.
- Leverage the power of 4-Bromotoluene as an organic synthesis building block to create novel compounds and streamline your research and development pipelines.
- Understand the critical CAS 106-38-7 chemical properties, including its melting point of 26-29°C and boiling point of 184°C, essential for process optimization.
- Utilize 4-Bromotoluene as a chemical intermediate for pharma applications, contributing to the efficient production of active pharmaceutical ingredients.
- Explore its role in specific reactions, such as its use as a p-bromotoluene chemical uses intermediate in ketone synthesis through Cu/Pd-catalyzed decarboxylative cross-coupling.
Key Advantages
Versatile Synthesis Applications
The ability of 4-Bromotoluene to act as a key organic synthesis building block allows for the creation of a wide array of complex organic molecules, significantly aiding in drug discovery and materials science innovation.
Efficient Reaction Pathways
Its utility in reactions like the Heck reaction and its role as a precursor for ketone synthesis via decarboxylative cross-coupling highlights its efficiency in establishing crucial chemical bonds.
Reliable Chemical Intermediate
As a well-characterized compound with precise CAS 106-38-7 chemical properties, 4-Bromotoluene provides a reliable foundation for reproducible and scalable synthesis processes in various industries.
Key Applications
Pharmaceutical Synthesis
4-Bromotoluene is an essential pharmaceutical intermediate synthesis component, vital for the development and production of numerous drug compounds.
Organic Synthesis
Its broad utility as a reaction reagent sourcing option makes it a go-to for chemists in academic and industrial settings for creating novel organic molecules.
Ketone Production
The compound plays a crucial role in ketone synthesis precursor pathways, enabling efficient production of these important chemical entities.
Material Science
Beyond pharmaceuticals, its application extends to material science, where it contributes to the development of new polymers and resins with tailored properties.