High Purity Boronate Ester for Advanced OLED Applications
Discover the key intermediate for next-generation organic electronics and fine chemical synthesis.
Get a Quote & SampleProduct Core Value
4,4,5,5-tetramethyl-2-(4-(10-phenylanthracen-9-yl))phenyl-1,3,2-dioxaborolane
This high-purity compound serves as a critical building block in the synthesis of advanced materials, particularly for the organic electronics industry. Its unique molecular structure, featuring a phenylanthracene moiety and a boronate ester group, contributes to excellent charge transport properties and efficient light emission, making it indispensable for developing high-performance OLED devices.
- Leverage this organic electronics synthesis intermediate to create cutting-edge display technologies.
- Utilize its phenylanthracene boronic acid pinacol ester structure for innovative materials science applications.
- Ensure superior performance in your electronic devices with this high purity fine chemical intermediate.
- Explore its potential as a key component in pharmaceutical development, leveraging its unique chemical properties.
Key Advantages
Enhanced Material Performance
Achieve superior charge transport and light emission efficiency with this advanced organic synthesis reagent, vital for the 4,4,5,5-tetramethyl-2-(4-(10-phenylanthracen-9-yl))phenyl-1,3,2-dioxaborolane CAS 1143576-84-4.
Versatile Application Potential
From OLEDs to potential pharmaceutical uses, this phenylanthracene derivative offers broad utility in chemical synthesis and materials science.
Guaranteed Purity and Quality
Benefit from a high-purity fine chemical intermediate, ensuring reliable and reproducible results in your research and production.
Key Applications
OLED Intermediates
A crucial component for synthesizing materials used in organic light-emitting diodes, enhancing device efficiency and longevity through its specific properties as an OLED intermediate.
Organic Electronics
This boronate ester is fundamental in the development of advanced organic electronic devices, contributing to improved charge transport and optical characteristics in organic electronics synthesis.
Fine Chemical Synthesis
Serves as a versatile building block in complex organic synthesis pathways, enabling the creation of novel compounds with targeted functionalities as a fine chemical intermediate.
Materials Science
Its unique photophysical properties make it valuable for creating advanced materials with specific optical characteristics for sensors and displays, utilizing its phenylanthracene boronic acid pinacol ester structure.