Discover N,N,N',N'-Tetrakis(p-tolyl)benzidine for Your Advanced Material Needs
Unlock the potential of high-purity organic intermediates for cutting-edge applications.
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N,N,N',N'-Tetrakis(p-tolyl)benzidine
This high-purity organic compound, identified by CAS number 76185-65-4, serves as a crucial synthesis material intermediate. Its precise chemical structure and properties make it ideal for advanced applications in material science and organic chemistry, contributing to the development of next-generation technologies.
- Explore the chemical synthesis of advanced materials using this versatile benzidine derivative.
- Discover the specific chemical properties of N,N,N',N'-Tetrakis(p-tolyl)benzidine for your research and development.
- Leverage high purity organic compounds to achieve superior performance in OLED applications.
- Investigate the potential of custom synthesis of specialty chemicals to meet unique project demands.
Key Advantages
Exceptional Purity
Ensuring 97% minimum purity, this compound provides reliable and consistent results for critical synthesis processes, contributing to the successful development of advanced materials.
Versatile Intermediate
As a vital synthesis material intermediate, it is instrumental in building complex organic molecules and exploring new frontiers in organic chemistry.
Enabling Innovation
This organic chemistry building block is key to driving innovation in fields like optoelectronics and specialty chemicals, allowing for the creation of novel materials.
Key Applications
OLED/Photoelectric Materials
Utilize this compound as a critical component in the synthesis of advanced OLED and photoelectric materials, pushing the boundaries of display and lighting technology.
Organic Synthesis
Employ it as a fundamental building block in complex organic synthesis, enabling the creation of diverse molecules for various scientific and industrial purposes.
Specialty Chemicals
Incorporate this high-purity chemical into the production of specialty chemicals, catering to niche market demands and advanced industrial requirements.
Material Science Research
Its unique properties make it a valuable subject for material science research, exploring new functionalities and applications for organic compounds.