Discover B-(10-[1,1'-Biphenyl]-2-yl-9-anthracenyl)boronic Acid: Your Key to Advanced Chemical Synthesis
Unlock groundbreaking advancements with our high-purity boronic acid derivative for cutting-edge materials and pharmaceuticals.
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B-(10-[1,1'-Biphenyl]-2-yl-9-anthracenyl)boronic acid
This highly specialized organic compound serves as a critical building block in advanced chemical synthesis. With a guaranteed purity of 97% min, it ensures reliable and reproducible results in complex organic reactions. Its unique molecular structure makes it an invaluable intermediate for creating novel materials, particularly in the field of organic electronics like OLEDs, and for developing next-generation pharmaceuticals.
- Enabling sophisticated organic synthesis: Utilize this boronic acid intermediate to facilitate complex coupling reactions and construct intricate molecular architectures.
- Advancing OLED material development: Explore its potential as a key component in the creation of efficient and high-performance organic light-emitting diode (OLED) materials.
- Facilitating pharmaceutical intermediate synthesis: Integrate this compound into your synthesis routes for active pharmaceutical ingredients (APIs), accelerating drug discovery and development processes.
- Ensuring high product quality: Rely on its consistent light yellow powder appearance and minimum 97% purity for predictable outcomes in your research and production.
Key Advantages
Exceptional Purity for Reliable Synthesis
Achieve superior reaction yields and product quality with our B-(10-[1,1'-Biphenyl]-2-yl-9-anthracenyl)boronic acid, boasting a minimum 97% purity, which is crucial for demanding organic synthesis applications.
Versatile Material Science Applications
This compound is a vital precursor in materials science, particularly for developing novel OLED materials and other advanced electronic components, driving innovation in display and lighting technologies.
Streamlined Pharmaceutical R&D
Leverage this boronic acid as a key building block in your pharmaceutical intermediate synthesis, offering a more efficient pathway to novel drug candidates and therapeutic agents.
Key Applications
Organic Synthesis
A fundamental building block in creating complex organic molecules, this boronic acid is essential for advanced organic synthesis, enabling novel compound creation.
OLED Materials
Its unique anthracene and biphenyl structure makes it a prime candidate for developing high-performance materials used in OLED displays and lighting, contributing to brighter and more efficient devices.
Pharmaceutical Intermediates
Plays a crucial role in the synthesis of pharmaceutical intermediates, supporting the development of new drugs and therapies by providing a key molecular scaffold.
Materials Science Research
Explored for its unique electronic and photophysical properties, this compound is vital for research in new functional materials and advanced electronic applications.