N,N'-Bis-(1-naphthalenyl)-N,N'-bis-phenyl-(1,1'-biphenyl)-4,4'-diamine: A High-Performance Electronic and Pharmaceutical Material
Discover the critical role of this advanced organic compound in next-generation OLED displays and pharmaceutical research.
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N,N'-Bis-(1-naphthalenyl)-N,N'-bis-phenyl-(1,1'-biphenyl)-4,4'-diamine
This high-purity white powder is a cornerstone material for advanced electronic applications, most notably in Organic Light-Emitting Diodes (OLEDs), where its exceptional hole transport capability significantly enhances device performance and longevity. Beyond its electronic applications, it also serves as a vital intermediate in pharmaceutical research, paving the way for novel drug delivery systems.
- Harnessing OLED Material Synthesis: The compound is a primary choice for creating efficient and stable OLED displays, contributing to brighter and more durable screens.
- Sourcing Vital Pharmaceutical Intermediates: As a key component in pharmaceutical research, this chemical aids in the development of new therapeutic agents and advanced drug delivery mechanisms.
- Achieving High Purity for Electronic Applications: Its high purity ensures optimal performance in demanding organic electronic devices, a crucial factor for manufacturers seeking reliable materials.
- Understanding Advanced Organic Electronics: The material's superior hole transport properties make it indispensable for researchers and developers in the burgeoning field of organic electronics.
Key Advantages
Exceptional Hole Transport
Experience enhanced device efficiency through the material's outstanding hole transport capability, crucial for maximizing performance in OLED devices.
Improved Device Longevity
Benefit from the material's ability to increase the glass transition temperature (Tg), leading to more stable device morphology and extended operational life, a key aspect of organic synthesis intermediates.
Versatile Application Scope
This compound is not only vital for OLED applications but also shows emerging significance in pharmaceutical research, broadening its utility for various scientific endeavors.
Key Applications
OLED Devices
Utilized extensively in OLEDs for its efficient hole transporting properties, contributing to better display quality and performance.
Pharmaceutical Research
An important building block in the development of new materials for innovative drug delivery systems, highlighting its role in the pharmaceutical intermediate supply chain.
Organic Electronics
Plays a significant role in other organic electronic devices, including polymer photovoltaics and perovskite solar cells, showcasing its versatility.
Material Science Innovation
Its unique properties make it a subject of study for new material development in specialty electronic chemicals and advanced organic electronics.