Tetrakis(4-aminobiphenyl)ethylene: A Key Intermediate for Advanced Materials and Pharmaceutical Synthesis
Discover the versatility and high purity of Tetrakis(4-aminobiphenyl)ethylene for your cutting-edge research and development needs.
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Tetrakis(4-aminobiphenyl)ethylene
Tetrakis(4-aminobiphenyl)ethylene, identified by CAS number 2252187-21-4, is a crucial organic intermediate with a molecular formula of C50H40N4 and a molecular weight of 696.88 g/mol. This compound is highly valued for its purity, typically NLT 98%, making it an indispensable component in sophisticated chemical synthesis.
- Explore the benefits of high purity Tetrakis(4-aminobiphenyl)ethylene for your advanced material applications.
- Understand why Tetrakis(4-aminobiphenyl)ethylene manufacturers are essential for reliable sourcing of this key intermediate.
- Learn about the role of Tetrakis(4-aminobiphenyl)ethylene suppliers in ensuring timely delivery for critical projects.
- Investigate the potential of this compound as an OLED materials intermediate to drive innovation in display technology.
Product Advantages
Exceptional Purity
Achieve superior results in your chemical synthesis with Tetrakis(4-aminobiphenyl)ethylene, guaranteed with NLT 98% purity, supporting complex organic synthesis.
Versatile Intermediate
Utilize this compound as a vital building block in the development of novel pharmaceutical intermediates and cutting-edge OLED materials.
Reliable Sourcing
Benefit from a stable supply chain, supported by reputable Tetrakis(4-aminobiphenyl)ethylene suppliers, ensuring your project timelines are met.
Key Applications
Organic Synthesis
Tetrakis(4-aminobiphenyl)ethylene serves as a fundamental building block in a wide array of complex organic synthesis pathways, enabling the creation of new molecules.
Pharmaceutical Intermediates
Its structure makes it an ideal starting material for the synthesis of various pharmaceutical intermediates, crucial for drug discovery and development.
OLED Materials
The unique properties of this compound make it valuable for the development of advanced OLED materials, contributing to the next generation of electronic displays.
Research and Development
Widely employed in laboratory settings, Tetrakis(4-aminobiphenyl)ethylene is essential for ongoing research and development in fine chemicals and materials science.