9-Anthraceneboronic Acid: A Key Intermediate for Advanced Organic Synthesis and Materials Science
Unlock innovation in pharmaceuticals and electronics with this high-purity boronic acid derivative.
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9-Anthraceneboronic acid
9-Anthraceneboronic acid is a pivotal chemical intermediate, crucial for advancements in both the pharmaceutical industry and cutting-edge materials science, particularly in the field of OLED technology. Its reliable quality and versatile chemical properties make it an indispensable component for researchers and manufacturers.
- Discover the benefits of using 9-anthraceneboronic acid for your organic synthesis needs, enabling the creation of complex molecular architectures.
- Explore how 9-anthraceneboronic acid serves as a vital pharmaceutical intermediate in drug development.
- Learn why CAS 100622-34-2 is a top choice for creating advanced OLED materials.
- Understand the advantages of sourcing 9-anthraceneboronic acid from a trusted supplier for consistent quality.
Advantages Offered by the Product
High Purity and Reliability
With a guaranteed purity of 98.0%min, this boronic acid ensures predictable and effective results in your synthesis processes, making it a reliable choice for critical applications.
Versatile Synthesis Capabilities
Leverage the power of 9-anthraceneboronic acid for your organic synthesis projects, facilitating complex chemical reactions and the development of novel compounds.
Key to Electronic Innovations
Utilize this compound as a building block for OLED materials, contributing to the next generation of display and lighting technologies.
Key Applications
Pharmaceutical Synthesis
As a critical pharmaceutical intermediate, 9-anthraceneboronic acid supports the development of new therapeutic agents and complex drug molecules.
OLED Material Development
Its structural properties make it ideal for synthesizing advanced materials used in organic light-emitting diodes (OLEDs), enhancing device performance.
Advanced Organic Chemistry
Researchers employ this boronic acid for intricate organic synthesis, enabling the creation of novel compounds with tailored properties.
Material Science Innovations
The compound finds use in material science for developing new functional materials with unique electronic or optical characteristics.