High Purity 4-(Dibiphenyl-4-ylamino)phenylboronic Acid: A Key Intermediate for Advanced OLED Technologies
Discover the critical role of 4-(dibiphenyl-4-ylamino)phenylboronic acid in driving next-generation OLED innovations.
Get a Quote & SampleProduct Core Value
4-(Dibiphenyl-4-ylamino)phenylboronic Acid
This high-purity compound, with CAS No. 943836-24-6, is a vital building block in the creation of advanced Organic Light-Emitting Diode (OLED) materials. Its unique molecular structure facilitates efficient charge transport and emission properties, making it indispensable for developing cutting-edge display and lighting applications.
- Explore the essential role of this 4-(dibiphenyl-4-ylamino)phenylboronic acid OLED intermediate in the development of high-performance OLED displays.
- Learn how buying 4-(dibiphenyl-4-ylamino)phenylboronic acid with a purity of ≥98.0% ensures optimal device performance.
- Understand the significance of OLED material intermediates like this phenylboronic acid derivative in advancing organic electronics.
- Investigate the chemical synthesis pathways and applications of this key compound for organic light emitting diode intermediates.
Advantages Offered
Exceptional Purity for Superior Performance
Achieve unparalleled device efficiency and longevity by utilizing this compound with a guaranteed purity of ≥98.0%, a critical factor for reliable OLED applications.
Crucial for OLED Innovation
As a key OLED material intermediate, its specific chemical structure is designed to enhance the performance characteristics of next-generation displays and lighting solutions.
Versatile Chemical Intermediate
This phenylboronic acid derivative serves as a fundamental building block, enabling diverse chemical synthesis routes for novel organic electronic materials.
Key Applications
OLED Display Technology
This compound is instrumental in fabricating emissive layers and charge transport layers for vibrant and energy-efficient OLED displays.
Organic Lighting Solutions
Its unique properties contribute to the development of flexible and innovative organic lighting fixtures that are transforming interior and exterior design.
Advanced Material Science Research
Researchers leverage this high-purity chemical for exploring new frontiers in organic electronics and developing novel functional materials.
Chemical Synthesis
It serves as a versatile starting material in various organic synthesis processes, facilitating the creation of complex molecular architectures.