Tetraki[4-(3,5-dicarboxyphenyl)]tetraphenylethylene: A High-Purity Intermediate for Advanced Materials
Unlock the potential of cutting-edge electronics with this premium organic intermediate.
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Tetraki[4-(3,5-dicarboxyphenyl)]tetraphenylethylene
This high-purity organic compound, identified by CAS No: 1420471-57-3, serves as a critical building block in the synthesis of advanced materials, particularly within the realm of OLED and photoelectric applications. Its unique molecular structure offers excellent properties for developing next-generation electronic components.
- Leverage the power of high purity organic intermediates for your research and development. Our product ensures minimal impurities for reliable synthesis outcomes.
- Explore the synthesis possibilities of OLED materials with this key tetraphenylethylene derivative. Its structure is tailored for advanced electronic applications.
- Benefit from the versatility of dicarboxyphenyl compounds in advanced organic chemistry. This intermediate facilitates the creation of complex molecular architectures.
- Invest in chemical synthesis building blocks designed for cutting-edge electronic applications. Enhance your product performance with our specialized chemicals.
Product Advantages
Exceptional Purity
Achieve superior results in your chemical synthesis with our 98% pure intermediate, vital for demanding applications.
Versatile Intermediate
Enables complex molecular construction, making it ideal for developing novel materials with tailored properties.
OLED & Photoelectric Focus
Specifically suited for the creation of advanced electronic components, driving innovation in displays and energy devices.
Key Applications
OLED Material Synthesis
Utilize this compound as a crucial intermediate for synthesizing advanced materials used in OLED displays, contributing to vibrant visuals and energy efficiency.
Photoelectric Devices
Incorporate this chemical into the design of photoelectric devices, optimizing their performance and durability for various applications.
Organic Chemistry Research
A valuable tool for organic chemists exploring new molecular structures and reaction pathways in advanced synthesis.
Advanced Material Development
Serves as a foundational component for creating novel materials with unique electronic and optical properties.