Discover the Power of Advanced Boronic Acid Intermediates for OLEDs
Unlock new possibilities in organic electronics with high-purity intermediates designed for cutting-edge applications.
Get a Quote & SampleUnveiling B-(9,10-di-1-naphthalenyl-2-anthracenyl)-: A Key OLED Intermediate
Boronic acid, B-(9,10-di-1-naphthalenyl-2-anthracenyl)-
This advanced chemical intermediate, CAS 867044-35-7, is a high-purity white powder essential for the synthesis of novel OLED materials and complex organic molecules. Its unique structure, combining naphthalene and anthracene moieties, makes it a valuable building block in materials science.
- Leverage the power of organic synthesis with our high purity boronic acid supplier, ensuring consistent and reliable results for your research and development projects.
- Explore the potential of naphthalene and anthracene derivatives in materials science, paving the way for next-generation electronic devices and functional materials.
- Our boronic acid, B-(9,10-di-1-naphthalenyl-2-anthracenyl)- serves as a critical component in the development of advanced OLED technologies.
- With a purity of 97% min, this compound is ideal for demanding applications where precision and performance are paramount in OLED intermediate synthesis.
Key Advantages of Our Boronic Acid Intermediate
Exceptional Purity
Achieve reliable and reproducible outcomes in your research with a chemical intermediate boasting a minimum purity of 97%, crucial for organic electronics materials.
Versatile Applications
From groundbreaking organic synthesis to the development of sophisticated OLED devices, this boronic acid derivative offers unparalleled versatility, supporting your innovation in organic synthesis.
Structural Uniqueness
The distinctive molecular structure, featuring naphthalene and anthracene units, provides a unique foundation for creating novel materials with tailored optoelectronic properties, supporting the demand for high purity boronic acid supplier.
Key Applications
OLED Device Fabrication
This boronic acid is instrumental in the synthesis of advanced materials used in the fabrication of high-performance OLED displays and lighting solutions, a key aspect of OLED intermediate synthesis.
Advanced Organic Synthesis
Serve as a crucial building block in complex organic transformations, enabling researchers to create new molecular architectures for various scientific fields, leveraging the benefits of a naphthalene derivative.
Materials Science Research
Its unique structure makes it an ideal candidate for developing novel functional materials, contributing to advancements in areas like organic semiconductors and photoactive compounds, reflecting the importance of organic electronics materials.
Pharmaceutical Intermediates
While primarily used in OLEDs, its versatile nature also positions it as a potential intermediate in the synthesis of complex pharmaceutical compounds, highlighting its role as a chemical intermediate.