High-Purity 4-Methyltriphenylamine (CAS 4316-53-4): Properties, Applications, and Synthesis in Advanced Materials
Discover the essential properties and diverse applications of 4-Methyltriphenylamine, a key component in modern chemical research and advanced material development.
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4-Methyltriphenylamine
As a critical chemical reagent, 4-Methyltriphenylamine, with its characteristic white powder appearance and guaranteed 99% purity, stands out as a versatile building block in organic synthesis. Its molecular formula, C19H17N, and a molecular weight of 259.35, underpin its utility in a range of advanced applications, particularly in the rapidly evolving field of optoelectronics.
- Explore the 4-Methyltriphenylamine properties, including its high purity and physical characteristics, essential for demanding chemical processes.
- Learn about the synthesis of 4-Methyltriphenylamine and its role as a vital intermediate in creating novel functional materials for cutting-edge technologies.
- Investigate the applications of 4-Methyltriphenylamine in OLEDs and other optoelectronic devices, where its electron-donating capabilities are highly valued.
- Discover why sourcing high purity 4-Methyltriphenylamine from reliable suppliers is crucial for achieving consistent and high-performance results in your research and development efforts.
Key Advantages
Exceptional Purity
Achieve reliable experimental outcomes with high purity 4-Methyltriphenylamine, ensuring minimal interference and maximum efficiency in your synthetic pathways.
Versatile Chemical Reagent
Leverage the compound's utility as a fundamental chemical reagent, enabling diverse reactions and facilitating the creation of complex organic molecules.
OLED Material Component
Utilize 4-Methyltriphenylamine in the development of next-generation OLED displays, capitalizing on its electronic and photophysical properties for enhanced performance.
Key Applications
Organic Synthesis Intermediate
Serves as a crucial intermediate in the synthesis of various organic compounds, making it a valuable asset for chemical research and manufacturing.
Optoelectronic Devices
Plays a significant role in the development of advanced optoelectronic devices, including OLEDs, contributing to improved efficiency and performance.
Research and Development
Widely employed as a chemical reagent in R&D settings, supporting innovation in material science and synthetic chemistry.
Functional Material Development
Contributes to the creation of functional organic materials with tailored properties for specialized industrial and technological applications.