3-Bromophenylboronic Acid: A Key Intermediate for Innovation
Unlock advanced synthesis with our high-purity 3-Bromophenylboronic Acid, essential for pharmaceuticals and OLEDs.
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3-Bromophenylboronic Acid
3-Bromophenylboronic Acid (CAS: 89598-96-9) is a vital organic compound widely recognized for its indispensable role as an intermediate in the synthesis of both complex pharmaceutical ingredients and cutting-edge OLED materials. Its unique chemical structure, featuring a bromine atom and a boronic acid group, makes it an exceptional building block for creating sophisticated molecular architectures.
- Leverage 3-Bromophenylboronic Acid CAS 89598-96-9 for precise organic synthesis, facilitating the creation of novel compounds.
- As a critical pharmaceutical intermediate, this compound is fundamental in the development of new therapeutic agents.
- Its application in OLED intermediates contributes to the advancement of display technologies, offering enhanced performance and vibrant visuals.
- Utilize the power of Suzuki-Miyaura coupling with this versatile chemical building block to efficiently form carbon-carbon bonds in your research and development efforts.
Key Advantages Offered
Synthesis Versatility
The presence of both bromine and boronic acid functionalities makes this compound a cornerstone for various cross-coupling reactions, enabling complex molecular constructions. This versatility is crucial for chemists seeking to push the boundaries of organic synthesis.
High Purity & Quality
Sourced with stringent purity standards, this chemical building block ensures reliable and reproducible results in demanding applications, from pharmaceutical API development to advanced material science.
Industry Critical Applications
Essential for both pharmaceutical intermediates and OLED intermediates, this compound underpins innovation in two high-impact sectors, driving progress in healthcare and consumer electronics.
Key Applications
Pharmaceutical Synthesis
As a key pharmaceutical intermediate, it plays a vital role in the intricate processes of developing active pharmaceutical ingredients (APIs), supporting new drug discovery and manufacturing.
OLED Material Development
This compound is integral to the creation of OLED intermediates, contributing to the next generation of efficient and vibrant displays and lighting solutions.
Organic Synthesis
Its reactivity, particularly in Suzuki-Miyaura coupling, makes it an invaluable tool for organic chemists seeking to create novel carbon-carbon bonds and complex molecular structures.
Specialty Chemicals
Beyond its primary uses, it serves as a versatile component in the broader specialty chemicals market, enabling diverse research and industrial applications.